- variableThe name of the variable that this object applies to
C++ Type:AuxVariableName
Description:The name of the variable that this object applies to
ConstantAux
The Constant AuxKernel creates a constant field over the domain. Truly constant field variables can likely be replaced with a Postprocessor. !syntax description /AuxKernels/ConstantAux
Input Parameters
- blockThe list of block ids (SubdomainID) that this object will be applied
C++ Type:std::vector
Options:
Description:The list of block ids (SubdomainID) that this object will be applied
- boundaryThe list of boundary IDs from the mesh where this boundary condition applies
C++ Type:std::vector
Options:
Description:The list of boundary IDs from the mesh where this boundary condition applies
- execute_onLINEAR TIMESTEP_ENDThe list of flag(s) indicating when this object should be executed, the available options include NONE, INITIAL, LINEAR, NONLINEAR, TIMESTEP_END, TIMESTEP_BEGIN, FINAL, CUSTOM, PRE_DISPLACE.
Default:LINEAR TIMESTEP_END
C++ Type:ExecFlagEnum
Options:NONE INITIAL LINEAR NONLINEAR TIMESTEP_END TIMESTEP_BEGIN FINAL CUSTOM PRE_DISPLACE
Description:The list of flag(s) indicating when this object should be executed, the available options include NONE, INITIAL, LINEAR, NONLINEAR, TIMESTEP_END, TIMESTEP_BEGIN, FINAL, CUSTOM, PRE_DISPLACE.
- value0Some constant value that can be read from the input file
Default:0
C++ Type:double
Options:
Description:Some constant value that can be read from the input file
Optional Parameters
- control_tagsAdds user-defined labels for accessing object parameters via control logic.
C++ Type:std::vector
Options:
Description:Adds user-defined labels for accessing object parameters via control logic.
- enableTrueSet the enabled status of the MooseObject.
Default:True
C++ Type:bool
Options:
Description:Set the enabled status of the MooseObject.
- seed0The seed for the master random number generator
Default:0
C++ Type:unsigned int
Options:
Description:The seed for the master random number generator
- use_displaced_meshFalseWhether or not this object should use the displaced mesh for computation. Note that in the case this is true but no displacements are provided in the Mesh block the undisplaced mesh will still be used.
Default:False
C++ Type:bool
Options:
Description:Whether or not this object should use the displaced mesh for computation. Note that in the case this is true but no displacements are provided in the Mesh block the undisplaced mesh will still be used.
Advanced Parameters
Input Files
- test/tests/auxkernels/element_aux_var/elemental_sort_test.i
- modules/combined/test/tests/sliding_block/sliding/constraint/frictional_04_penalty.i
- modules/tensor_mechanics/test/tests/truss/truss_hex_action.i
- modules/combined/test/tests/sliding_block/in_and_out/constraint/frictionless_penalty.i
- test/tests/auxkernels/nodal_aux_var/nodal_aux_var_test.i
- test/tests/postprocessors/function_value_pps/function_value_pps.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_3/plane3_template1.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_2/plane2_template2.i
- modules/combined/test/tests/sliding_block/in_and_out/constraint/sm/frictional_02_penalty_sm.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_4/plane4_template2_sm.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_2/plane2_template1_sm.i
- modules/combined/test/tests/sliding_block/in_and_out/dirac/frictionless_kinematic.i
- modules/porous_flow/test/tests/poroperm/PermTensorFromVar01.i
- modules/combined/test/tests/sliding_block/sliding/constraint/frictionless_aug.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/glued_penalty.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_1/plane1_template1_sm.i
- modules/combined/test/tests/sliding_block/in_and_out/dirac/sm/frictional_04_penalty_sm.i
- modules/fluid_properties/test/tests/auxkernels/stagnation_temperature_aux.i
- test/tests/kernels/scalar_constraint/scalar_constraint_kernel_disp.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/glued_kinematic_sm.i
- modules/combined/test/tests/sliding_block/in_and_out/dirac/sm/frictionless_penalty_sm.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_1/plane1_template1.i
- modules/combined/test/tests/sliding_block/in_and_out/dirac/sm/frictionless_kinematic_sm.i
- modules/combined/test/tests/sliding_block/sliding/constraint/frictionless_penalty.i
- test/tests/outputs/variables/output_vars_test.i
- test/tests/transfers/multiapp_userobject_transfer/3d_1d_sub.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_3/plane3_template2_sm.i
- modules/combined/test/tests/sliding_block/sliding/dirac/sm/frictionless_kinematic_sm.i
- modules/combined/test/tests/sliding_block/sliding/dirac/sm/frictional_04_penalty_sm.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/glued_kinematic_dirac.i
- test/tests/misc/selective_reinit/selective_reinit_test.i
- test/tests/outputs/variables/hide_output_via_variables_block.i
- modules/combined/test/tests/sliding_block/in_and_out/constraint/sm/frictionless_penalty_contact_line_search_sm.i
- test/tests/auxkernels/nodal_aux_var/nodal_sort_test.i
- test/tests/auxkernels/element_aux_var/l2_element_aux_var_test.i
- modules/tensor_mechanics/test/tests/beam/eigenstrain/eigenstrain_from_var.i
- modules/combined/test/tests/sliding_block/sliding/constraint/sm/frictional_02_penalty_sm.i
- modules/combined/test/tests/sliding_block/in_and_out/constraint/frictionless_penalty_contact_line_search.i
- test/tests/ics/dependency/test.i
- test/tests/constraints/nodal_constraint/nodal_constraint_displaced_test.i
- test/tests/userobjects/layered_average/layered_average_1d_displaced.i
- modules/tensor_mechanics/test/tests/truss/truss_hex.i
- modules/combined/test/tests/sliding_block/sliding/constraint/frictionless_kinematic.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/frictionless_penalty_dirac_sm.i
- test/tests/postprocessors/volume/sphere1D.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/glued_kinematic_dirac_sm.i
- modules/combined/test/tests/sliding_block/sliding/constraint/frictional_02_aug.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/glued_penalty_dirac_sm.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_2/plane2_template2_sm.i
- test/tests/auxkernels/nodal_aux_var/nodal_aux_init_test.i
- test/tests/postprocessors/difference_pps/difference_depend_check.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/frictionless_kinematic.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_4/plane4_template2.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/frictionless_kinematic_dirac.i
- modules/fluid_properties/test/tests/auxkernels/specific_enthalpy_aux.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_1/plane1_template2_sm.i
- modules/combined/test/tests/sliding_block/in_and_out/constraint/sm/frictionless_kinematic_sm.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/frictionless_kinematic_sm.i
- modules/combined/test/tests/sliding_block/in_and_out/dirac/frictional_02_penalty.i
- modules/tensor_mechanics/test/tests/truss/truss_plastic.i
- modules/tensor_mechanics/test/tests/truss/truss_3d_action.i
- modules/combined/test/tests/sliding_block/sliding/dirac/frictionless_penalty.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/glued_kinematic.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_1/plane1_template2.i
- test/tests/postprocessors/difference_pps/difference_pps.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/glued_penalty_sm.i
- modules/combined/test/tests/sliding_block/in_and_out/constraint/frictional_04_penalty.i
- modules/combined/test/tests/sliding_block/in_and_out/constraint/sm/frictional_04_penalty_sm.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/frictionless_penalty_dirac.i
- test/tests/misc/check_error/subdomain_restricted_auxkernel_mismatch.i
- test/tests/parser/active_inactive/active_inactive.i
- modules/combined/test/tests/sliding_block/sliding/dirac/frictional_04_penalty.i
- modules/combined/test/tests/sliding_block/sliding/dirac/frictionless_kinematic.i
- test/tests/outputs/displaced/non_displaced_fallback.i
- test/tests/outputs/variables/output_vars_nonexistent.i
- test/tests/ics/dependency/monomial.i
- modules/combined/test/tests/sliding_block/in_and_out/constraint/sm/frictionless_penalty_sm.i
- modules/combined/test/tests/sliding_block/sliding/constraint/sm/frictional_02_aug_sm.i
- test/tests/geomsearch/nearest_node_locator/adapt.i
- modules/tensor_mechanics/test/tests/truss/truss_3d.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_4/plane4_template1_sm.i
- modules/combined/test/tests/sliding_block/in_and_out/constraint/frictional_02_penalty.i
- modules/combined/test/tests/sliding_block/sliding/constraint/sm/frictionless_kinematic_sm.i
- test/tests/parser/active_inactive/top_level.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/glued_penalty_dirac.i
- modules/combined/test/tests/sliding_block/sliding/constraint/sm/frictional_04_penalty_sm.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_4/plane4_template1.i
- modules/tensor_mechanics/test/tests/truss/truss_2d_action.i
- modules/combined/test/tests/sliding_block/sliding/dirac/sm/frictionless_penalty_sm.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/frictionless_kinematic_dirac_sm.i
- modules/combined/test/tests/gap_heat_transfer_mortar/ref-displaced.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_3/plane3_template2.i
- modules/combined/test/tests/sliding_block/sliding/dirac/frictional_02_penalty.i
- modules/combined/test/tests/sliding_block/sliding/constraint/sm/frictionless_aug_sm.i
- modules/combined/test/tests/sliding_block/in_and_out/dirac/frictionless_penalty.i
- modules/combined/test/tests/sliding_block/in_and_out/dirac/frictional_04_penalty.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_3/plane3_template1_sm.i
- test/tests/auxkernels/vector_magnitude/vector_magnitude.i
- modules/porous_flow/test/tests/poroperm/PermTensorFromVar03.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/frictionless_penalty_sm.i
- test/tests/misc/check_error/invalid_aux_coupling_test.i
- modules/fluid_properties/test/tests/auxkernels/stagnation_pressure_aux.i
- modules/combined/test/tests/sliding_block/in_and_out/dirac/sm/frictional_02_penalty_sm.i
- test/tests/auxkernels/element_aux_var/element_aux_var_test.i
- modules/heat_conduction/test/tests/heat_conduction/coupled_convective_heat_flux/const_hw.i
- modules/combined/test/tests/sliding_block/sliding/constraint/frictional_02_penalty.i
- test/tests/auxkernels/element_aux_var/block_global_depend_elem_aux.i
- modules/tensor_mechanics/test/tests/truss/truss_2d.i
- modules/combined/test/tests/sliding_block/sliding/constraint/sm/frictionless_penalty_sm.i
- modules/combined/test/tests/contact_verification/patch_tests/plane_2/plane2_template1.i
- modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/frictionless_penalty.i
- modules/combined/test/tests/gap_heat_transfer_mortar/gap_heat_transfer_mortar_displaced.i
- test/tests/auxkernels/element_aux_var/element_high_order_aux_test.i
- modules/combined/test/tests/sliding_block/in_and_out/constraint/frictionless_kinematic.i
- test/tests/outputs/variables/output_vars_hidden_shown_check.i
- test/tests/auxkernels/nodal_aux_var/nodal_aux_ts_test.i
test/tests/auxkernels/element_aux_var/elemental_sort_test.i
[Mesh]
file = square.e
[]
[Variables]
[./u]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./one]
order = CONSTANT
family = MONOMIAL
initial_condition = 0
[../]
[./two]
order = CONSTANT
family = MONOMIAL
[../]
[]
[Kernels]
[./diff]
type = Diffusion
variable = u
[../]
[]
[AuxKernels]
# Intentionally out of order to test sorting capabiilties
active = 'one two'
[./two]
variable = two
type = CoupledAux
value = 2
operator = '/'
coupled = one
[../]
[./one]
variable = one
type = ConstantAux
value = 1
[../]
[./five]
type = ConstantAux
variable = five
boundary = '1 2'
value = 5
[../]
[]
[BCs]
active = 'left right'
[./left]
type = DirichletBC
variable = u
boundary = 1
value = 0
[../]
[./right]
type = DirichletBC
variable = u
boundary = 2
value = 1
[../]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[]
modules/combined/test/tests/sliding_block/sliding/constraint/frictional_04_penalty.i
# This is a benchmark test that checks constraint based frictional
# contact using the penalty method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# A friction coefficient of 0.4 is used. The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 14.99999
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = coulomb
penalty = 1e+7
friction_coefficient = 0.4
formulation = penalty
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
modules/tensor_mechanics/test/tests/truss/truss_hex_action.i
# This test is designed to check
# whether truss element works well with other multi-dimensional element
# e.g. the hex element in this case, by assigning different block number
# to different types of elements.
[Mesh]
type = FileMesh
file = truss_hex.e
displacements = 'disp_x disp_y disp_z'
[]
[Variables]
[./disp_x]
order = FIRST
family = LAGRANGE
[../]
[./disp_y]
order = FIRST
family = LAGRANGE
[../]
[./disp_z]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./axial_stress]
order = CONSTANT
family = MONOMIAL
[../]
[./e_over_l]
order = CONSTANT
family = MONOMIAL
[../]
[./area]
order = CONSTANT
family = MONOMIAL
[../]
[./react_x]
order = FIRST
family = LAGRANGE
[../]
[./react_y]
order = FIRST
family = LAGRANGE
[../]
[./react_z]
order = FIRST
family = LAGRANGE
[../]
[]
[Functions]
[./x2]
type = PiecewiseLinear
x = '0 1 2 3'
y = '0 .5 1 1'
[../]
[./y2]
type = PiecewiseLinear
x = '0 1 2 3'
y = '0 0 .5 1'
[../]
[]
[BCs]
[./fixx1]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./fixy1]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0
[../]
[./fixz1]
type = DirichletBC
variable = disp_z
boundary = 1
value = 0
[../]
[./fixx2]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0
[../]
[./fixz2]
type = DirichletBC
variable = disp_z
boundary = 2
value = 0
[../]
[./fixDummyHex_x]
type = DirichletBC
variable = disp_x
boundary = 1000
value = 0
[../]
[./fixDummyHex_y]
type = DirichletBC
variable = disp_y
boundary = 1000
value = 0
[../]
[./fixDummyHex_z]
type = DirichletBC
variable = disp_z
boundary = 1000
value = 0
[../]
[]
[DiracKernels]
[./pull]
type = ConstantPointSource
value = -25
point = '0 -2 0'
variable = disp_y
[../]
[]
[AuxKernels]
[./axial_stress]
type = MaterialRealAux
block = '1 2'
property = axial_stress
variable = axial_stress
[../]
[./e_over_l]
type = MaterialRealAux
block = '1 2'
property = e_over_l
variable = e_over_l
[../]
[./area1]
type = ConstantAux
block = 1
variable = area
value = 1.0
execute_on = 'initial timestep_begin'
[../]
[./area2]
type = ConstantAux
block = 2
variable = area
value = 0.25
execute_on = 'initial timestep_begin'
[../]
[]
[Preconditioning]
[./SMP]
type = SMP
full = true
[../]
[]
[Executioner]
type = Transient
solve_type = PJFNK
petsc_options_iname = '-pc_type -ksp_gmres_restart'
petsc_options_value = 'jacobi 101'
nl_max_its = 15
nl_rel_tol = 1e-8
nl_abs_tol = 1e-10
dt = 1
num_steps = 1
end_time = 1
[]
[Kernels]
[./TensorMechanics]
block = 1000
displacements = 'disp_x disp_y disp_z'
[../]
[]
[Modules/TensorMechanics/LineElementMaster]
[./block]
truss = true
displacements = 'disp_x disp_y disp_z'
area = area
block = '1 2'
save_in = 'react_x react_y react_z'
[../]
[]
[Materials]
[./elasticity_tensor]
type = ComputeIsotropicElasticityTensor
block = 1000
youngs_modulus = 1e6
poissons_ratio = 0
[../]
[./strain]
type = ComputeSmallStrain
block = 1000
displacements = 'disp_x disp_y disp_z'
[../]
[./stress]
type = ComputeLinearElasticStress
block = 1000
[../]
[./linelast]
type = LinearElasticTruss
block = '1 2'
displacements = 'disp_x disp_y disp_z'
youngs_modulus = 1e6
[../]
[]
[Outputs]
file_base = 'truss_hex_out'
exodus = true
[]
modules/combined/test/tests/sliding_block/in_and_out/constraint/frictionless_penalty.i
# This is a benchmark test that checks constraint based frictionless
# contact using the penalty method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2. The gold file is run
# on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Preconditioning]
[./smp]
type = SMP
full = true
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
formulation = penalty
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
test/tests/auxkernels/nodal_aux_var/nodal_aux_var_test.i
###########################################################
# This is a simple test of the AuxKernel System.
# Several explicit calculations are being done
# using spatial variables.
# This simulation demonstrates coupling, and dependency
# resolution. For simplicity all AuxVariables in this
# simulation are constant.
#
# @Requirement F5.30
###########################################################
[Mesh]
file = square.e
[]
[Variables]
active = 'u'
[./u]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
active = 'one five coupled'
[./one]
order = FIRST
family = LAGRANGE
[../]
[./five]
order = FIRST
family = LAGRANGE
[../]
[./coupled]
order = FIRST
family = LAGRANGE
[../]
[]
[Kernels]
active = 'diff force'
[./diff]
type = Diffusion
variable = u
[../]
#Coupling of nonlinear to Aux
[./force]
type = CoupledForce
variable = u
v = one
[../]
[]
# AuxKernel System
[AuxKernels]
#Simple Aux Kernel
[./constant]
variable = one
type = ConstantAux
value = 1
[../]
#Shows coupling of Aux to nonlinear
[./coupled]
variable = coupled
type = CoupledAux
value = 2
coupled = u
[../]
[./five]
type = ConstantAux
variable = five
boundary = '1 2'
value = 5
[../]
[]
[BCs]
active = 'left right'
[./left]
type = DirichletBC
variable = u
boundary = 1
value = 0
[../]
[./right]
type = DirichletBC
variable = u
boundary = 2
value = 1
[../]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
[]
[Outputs]
file_base = out
exodus = true
[]
test/tests/postprocessors/function_value_pps/function_value_pps.i
[Mesh]
type = GeneratedMesh
dim = 2
xmin = 0
xmax = 1
ymin = 0
ymax = 1
nx = 2
ny = 2
[]
[AuxVariables]
[./v]
[../]
[]
[Variables]
[./u]
[../]
[]
[Functions]
[./constant_func]
type = ConstantFunction
value = 2.798
[../]
[]
[ICs]
[./u_ic]
type = ConstantIC
variable = u
value = 2
[../]
[]
[AuxKernels]
[./one]
type = ConstantAux
variable = v
value = 1
execute_on = 'initial timestep_end'
[../]
[]
[Kernels]
[./diff]
type = Diffusion
variable = u
[../]
[]
[BCs]
[./left]
type = DirichletBC
variable = u
boundary = left
value = 0
[../]
[./right]
type = DirichletBC
variable = u
boundary = right
value = 1
[../]
[]
[Postprocessors]
[./value1]
type = FunctionValuePostprocessor
function = constant_func
execute_on = 'initial timestep_end'
[../]
[./value2]
type = FunctionValuePostprocessor
function = 2*t
execute_on = 'initial timestep_end'
[../]
[]
[Executioner]
type = Transient
num_steps = 5
[]
[Outputs]
csv = true
[]
[Problem]
solve = false
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_3/plane3_template1.i
[GlobalParams]
order = SECOND
displacements = 'disp_x disp_y'
[]
[Mesh]
file = plane3_mesh.e
[]
[Problem]
type = ReferenceResidualProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[./tang_force_x]
[../]
[./tang_force_y]
[../]
[]
[Kernels]
[./TensorMechanics]
use_displaced_mesh = true
save_in = 'saved_x saved_y'
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xx
index_i = 0
index_j = 0
execute_on = timestep_end
[../]
[./stress_yy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_yy
index_i = 1
index_j = 1
execute_on = timestep_end
[../]
[./stress_xy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xy
index_i = 0
index_j = 1
execute_on = timestep_end
[../]
[./stress_zz]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_zz
index_i = 2
index_j = 2
execute_on = timestep_end
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x2]
type = NodalVariableValue
nodeid = 1
variable = disp_x
[../]
[./disp_x11]
type = NodalVariableValue
nodeid = 10
variable = disp_x
[../]
[./disp_y2]
type = NodalVariableValue
nodeid = 1
variable = disp_y
[../]
[./disp_y11]
type = NodalVariableValue
nodeid = 10
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./bot_strain]
type = ComputeIncrementalSmallStrain
block = '1'
[../]
[./bot_stress]
type = ComputeFiniteStrainElasticStress
block = '1'
[../]
[./top_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./top_strain]
type = ComputeIncrementalSmallStrain
block = '2'
[../]
[./top_stress]
type = ComputeFiniteStrainElasticStress
block = '2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'asm'
line_search = 'none'
nl_abs_tol = 1e-10
nl_rel_tol = 1e-8
l_max_its = 100
nl_max_its = 200
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x2 disp_y2 disp_x11 disp_y11 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
[../]
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_2/plane2_template2.i
[GlobalParams]
volumetric_locking_correction = true
displacements = 'disp_x disp_y'
[]
[Mesh]
file = plane2_mesh.e
[]
[Problem]
type = AugmentedLagrangianContactProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
maximum_lagrangian_update_iterations = 200
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Kernels]
[./TensorMechanics]
use_displaced_mesh = true
save_in = 'saved_x saved_y'
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xx
index_i = 0
index_j = 0
execute_on = timestep_end
[../]
[./stress_yy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_yy
index_i = 1
index_j = 1
execute_on = timestep_end
[../]
[./stress_xy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xy
index_i = 0
index_j = 1
execute_on = timestep_end
[../]
[./stress_zz]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_zz
index_i = 2
index_j = 2
execute_on = timestep_end
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x5]
type = NodalVariableValue
nodeid = 4
variable = disp_x
[../]
[./disp_x9]
type = NodalVariableValue
nodeid = 8
variable = disp_x
[../]
[./disp_y5]
type = NodalVariableValue
nodeid = 4
variable = disp_y
[../]
[./disp_y9]
type = NodalVariableValue
nodeid = 8
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./bot_strain]
type = ComputeIncrementalSmallStrain
block = '1'
[../]
[./bot_stress]
type = ComputeFiniteStrainElasticStress
block = '1'
[../]
[./top_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./top_strain]
type = ComputeIncrementalSmallStrain
block = '2'
[../]
[./top_stress]
type = ComputeFiniteStrainElasticStress
block = '2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-8
nl_rel_tol = 1e-7
l_max_its = 100
nl_max_its = 200
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x5 disp_y5 disp_x9 disp_y9 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
al_penetration_tolerance = 1e-8
[../]
[]
modules/combined/test/tests/sliding_block/in_and_out/constraint/sm/frictional_02_penalty_sm.i
# This is a benchmark test that checks constraint based frictional
# contact using the penalty method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2 and a friction coefficient
# of 0.2 is used. The gold file is run on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
displacements = 'disp_x disp_y'
volumetric_locking_correction = false
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -sub_pc_type -pc_asm_overlap -ksp_gmres_restart'
petsc_options_value = 'asm lu 20 101'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-3
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = coulomb
penalty = 1e+7
friction_coefficient = 0.2
formulation = penalty
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_4/plane4_template2_sm.i
[Mesh]
file = plane4_mesh.e
[]
[GlobalParams]
order = SECOND
displacements = 'disp_x disp_y'
[]
[Problem]
type = AugmentedLagrangianContactProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
maximum_lagrangian_update_iterations = 200
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[./tang_force_x]
[../]
[./tang_force_y]
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
save_in_disp_y = saved_y
save_in_disp_x = saved_x
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = MaterialTensorAux
tensor = stress
variable = stress_xx
index = 0
[../]
[./stress_yy]
type = MaterialTensorAux
tensor = stress
variable = stress_yy
index = 1
[../]
[./stress_xy]
type = MaterialTensorAux
tensor = stress
variable = stress_xy
index = 3
[../]
[./stress_zz]
type = MaterialTensorAux
tensor = stress
variable = stress_zz
index = 2
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x9]
type = NodalVariableValue
nodeid = 8
variable = disp_x
[../]
[./disp_x16]
type = NodalVariableValue
nodeid = 15
variable = disp_x
[../]
[./disp_y9]
type = NodalVariableValue
nodeid = 8
variable = disp_y
[../]
[./disp_y16]
type = NodalVariableValue
nodeid = 15
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot]
type = LinearIsotropicMaterial
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./top]
type = LinearIsotropicMaterial
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-10
nl_rel_tol = 1e-7
l_max_its = 100
nl_max_its = 200
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x9 disp_y9 disp_x16 disp_y16 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
al_penetration_tolerance = 1e-8
[../]
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_2/plane2_template1_sm.i
[Mesh]
file = plane2_mesh.e
[]
[GlobalParams]
displacements = 'disp_x disp_y'
[]
[Problem]
type = ReferenceResidualProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
save_in_disp_y = saved_y
save_in_disp_x = saved_x
diag_save_in_disp_y = diag_saved_y
diag_save_in_disp_x = diag_saved_x
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = MaterialTensorAux
tensor = stress
variable = stress_xx
index = 0
[../]
[./stress_yy]
type = MaterialTensorAux
tensor = stress
variable = stress_yy
index = 1
[../]
[./stress_xy]
type = MaterialTensorAux
tensor = stress
variable = stress_xy
index = 3
[../]
[./stress_zz]
type = MaterialTensorAux
tensor = stress
variable = stress_zz
index = 2
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x5]
type = NodalVariableValue
nodeid = 4
variable = disp_x
[../]
[./disp_x9]
type = NodalVariableValue
nodeid = 8
variable = disp_x
[../]
[./disp_y5]
type = NodalVariableValue
nodeid = 4
variable = disp_y
[../]
[./disp_y9]
type = NodalVariableValue
nodeid = 8
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot]
type = LinearIsotropicMaterial
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./top]
type = LinearIsotropicMaterial
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-8
nl_rel_tol = 1e-7
l_max_its = 100
nl_max_its = 200
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x5 disp_y5 disp_x9 disp_y9 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
[../]
[]
modules/combined/test/tests/sliding_block/in_and_out/dirac/frictionless_kinematic.i
# This is a benchmark test that checks Dirac based frictionless
# contact using the kinematic method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2. The gold file is run
# on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./constitutive]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-7
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
file_base = frictionless_kinematic_out
interval = 10
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+6
formulation = kinematic
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
modules/porous_flow/test/tests/poroperm/PermTensorFromVar01.i
# Testing permeability calculated from scalar and tensor
# Trivial test, checking calculated permeability is correct
# k = k_anisotropy * perm
[Mesh]
type = GeneratedMesh
dim = 1
nx = 3
xmin = 0
xmax = 3
[]
[GlobalParams]
block = 0
PorousFlowDictator = dictator
[]
[Variables]
[./pp]
[./InitialCondition]
type = ConstantIC
value = 0
[../]
[../]
[]
[Kernels]
[./flux]
type = PorousFlowAdvectiveFlux
gravity = '0 0 0'
variable = pp
[../]
[]
[BCs]
[./ptop]
type = DirichletBC
variable = pp
boundary = right
value = 0
[../]
[./pbase]
type = DirichletBC
variable = pp
boundary = left
value = 1
[../]
[]
[AuxVariables]
[./perm_var]
order = CONSTANT
family = MONOMIAL
[../]
[./perm_x]
order = CONSTANT
family = MONOMIAL
[../]
[./perm_y]
order = CONSTANT
family = MONOMIAL
[../]
[./perm_z]
order = CONSTANT
family = MONOMIAL
[../]
[]
[AuxKernels]
[./perm_var]
type = ConstantAux
value = 2
variable = perm_var
[../]
[./perm_x]
type = PorousFlowPropertyAux
property = permeability
variable = perm_x
row = 0
column = 0
[../]
[./perm_y]
type = PorousFlowPropertyAux
property = permeability
variable = perm_y
row = 1
column = 1
[../]
[./perm_z]
type = PorousFlowPropertyAux
property = permeability
variable = perm_z
row = 2
column = 2
[../]
[]
[Postprocessors]
[./perm_x_left]
type = PointValue
variable = perm_x
point = '0.5 0 0'
[../]
[./perm_y_left]
type = PointValue
variable = perm_y
point = '0.5 0 0'
[../]
[./perm_z_left]
type = PointValue
variable = perm_z
point = '0.5 0 0'
[../]
[./perm_x_right]
type = PointValue
variable = perm_x
point = '2.5 0 0'
[../]
[./perm_y_right]
type = PointValue
variable = perm_y
point = '2.5 0 0'
[../]
[./perm_z_right]
type = PointValue
variable = perm_z
point = '2.5 0 0'
[../]
[]
[UserObjects]
[./dictator]
type = PorousFlowDictator
porous_flow_vars = 'pp'
number_fluid_phases = 1
number_fluid_components = 1
[../]
[./pc]
type = PorousFlowCapillaryPressureVG
# unimportant in this fully-saturated test
m = 0.8
alpha = 1e-4
[../]
[]
[Modules]
[./FluidProperties]
[./simple_fluid]
type = SimpleFluidProperties
[../]
[../]
[]
[Materials]
[./permeability]
type = PorousFlowPermeabilityTensorFromVar
k_anisotropy = '1 0 0 0 2 0 0 0 0.1'
perm = perm_var
[../]
[./temperature]
type = PorousFlowTemperature
[../]
[./massfrac]
type = PorousFlowMassFraction
[../]
[./eff_fluid_pressure]
type = PorousFlowEffectiveFluidPressure
[../]
[./ppss]
type = PorousFlow1PhaseP
porepressure = pp
capillary_pressure = pc
[../]
[./simple_fluid]
type = PorousFlowSingleComponentFluid
fp = simple_fluid
phase = 0
[../]
[./porosity]
type = PorousFlowPorosity
porosity_zero = 0.1
[../]
[./relperm]
type = PorousFlowRelativePermeabilityCorey
n = 0 # unimportant in this fully-saturated situation
phase = 0
[../]
[]
[Preconditioning]
[./andy]
type = SMP
full = true
[../]
[]
[Executioner]
solve_type = Newton
type = Steady
l_tol = 1E-5
nl_abs_tol = 1E-3
nl_rel_tol = 1E-8
l_max_its = 200
nl_max_its = 400
petsc_options_iname = '-pc_type -pc_asm_overlap -sub_pc_type -ksp_type -ksp_gmres_restart'
petsc_options_value = ' asm 2 lu gmres 200'
[]
[Outputs]
csv = true
execute_on = 'timestep_end'
[]
modules/combined/test/tests/sliding_block/sliding/constraint/frictionless_aug.i
# This is a benchmark test that checks constraint based frictionless
# contact using the augmented lagrangian method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./saved_x]
[../]
[./saved_y]
[../]
[./contact_traction]
[../]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
save_in = 'saved_x saved_y'
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
l_max_its = 100
nl_max_its = 100
dt = 0.1
end_time = 15
num_steps = 200
l_tol = 1e-6
nl_rel_tol = 1e-7
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Problem]
type = AugmentedLagrangianContactProblem
solution_variables = 'disp_x disp_y'
extra_tag_vectors = 'ref'
reference_vector = 'ref'
maximum_lagrangian_update_iterations = 25
[]
[Preconditioning]
[./SMP]
type = SMP
full = true
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
normalize_penalty = true
formulation = augmented_lagrange
tangential_tolerance = 1e-3
system = constraint
normal_smoothing_distance = 0.1
al_penetration_tolerance = 1e-9
[../]
[]
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/glued_penalty.i
[Mesh]
file = blocks_2d_nogap.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.01
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e7
poissons_ratio = 0.3
[../]
[./right]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.10
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
system = Constraint
master = 2
slave = 3
model = glued
formulation = penalty
penalty = 1e+7
[../]
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_1/plane1_template1_sm.i
[Mesh]
file = plane1_mesh.e
[]
[GlobalParams]
displacements = 'disp_x disp_y'
[]
[Problem]
type = ReferenceResidualProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
save_in_disp_y = saved_y
save_in_disp_x = saved_x
diag_save_in_disp_y = diag_saved_y
diag_save_in_disp_x = diag_saved_x
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = MaterialTensorAux
tensor = stress
variable = stress_xx
index = 0
[../]
[./stress_yy]
type = MaterialTensorAux
tensor = stress
variable = stress_yy
index = 1
[../]
[./stress_xy]
type = MaterialTensorAux
tensor = stress
variable = stress_xy
index = 3
[../]
[./stress_zz]
type = MaterialTensorAux
tensor = stress
variable = stress_zz
index = 2
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x2]
type = NodalVariableValue
nodeid = 1
variable = disp_x
[../]
[./disp_x7]
type = NodalVariableValue
nodeid = 6
variable = disp_x
[../]
[./disp_y2]
type = NodalVariableValue
nodeid = 1
variable = disp_y
[../]
[./disp_y7]
type = NodalVariableValue
nodeid = 6
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot]
type = LinearIsotropicMaterial
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./top]
type = LinearIsotropicMaterial
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
#Preconditioned JFNK (default)
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-10
nl_rel_tol = 1e-9
l_max_its = 50
nl_max_its = 100
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x2 disp_y2 disp_x7 disp_y7 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
[../]
[]
modules/combined/test/tests/sliding_block/in_and_out/dirac/sm/frictional_04_penalty_sm.i
# This is a benchmark test that checks Dirac based frictional
# contact using the penalty method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2 and a friction coefficient
# of 0. is used. The gold file is run on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
displacements = 'disp_x disp_y'
volumetric_locking_correction = false
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-7
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
formulation = penalty
friction_coefficient = 0.4
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
modules/fluid_properties/test/tests/auxkernels/stagnation_temperature_aux.i
[Mesh]
type = GeneratedMesh
dim = 1
nx = 2
[]
[Variables]
[./u]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./specific_internal_energy]
[../]
[./specific_volume]
[../]
[./velocity]
[../]
[./stagnation_temperature]
[../]
[]
[Kernels]
[./diff_u]
type = Diffusion
variable = u
[../]
[]
[AuxKernels]
[./specific_internal_energy_ak]
type = ConstantAux
variable = specific_internal_energy
value = 1026.2e3
[../]
[./specific_volume_ak]
type = ConstantAux
variable = specific_volume
value = 0.0012192
[../]
[./velocity_ak]
type = ConstantAux
variable = velocity
value = 10.0
[../]
[./stagnation_temperature_ak]
type = StagnationTemperatureAux
variable = stagnation_temperature
e = specific_internal_energy
v = specific_volume
vel = velocity
fp = eos
[../]
[]
[Modules]
[./FluidProperties]
[./eos]
type = StiffenedGasFluidProperties
gamma = 2.35
q = -1167e3
q_prime = 0.0
p_inf = 1e9
cv = 1816.0
[../]
[]
[]
[BCs]
[./left_u]
type = DirichletBC
variable = u
boundary = 0
value = 1
[../]
[./right_u]
type = DirichletBC
variable = u
boundary = 1
value = 2
[../]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
[]
[Outputs]
exodus = true
[]
test/tests/kernels/scalar_constraint/scalar_constraint_kernel_disp.i
#
# This test is identical to scalar_constraint_kernel.i, but it everything is evaluated on the displaced mesh
#
[GlobalParams]
use_displaced_mesh = true
[]
[Mesh]
type = GeneratedMesh
dim = 2
xmin = -1
xmax = 1
ymin = -1
ymax = 1
nx = 2
ny = 2
elem_type = QUAD9
displacements = 'disp_x disp_y'
[]
[Functions]
[./exact_fn]
type = ParsedFunction
value = 'x*x+y*y'
[../]
[./ffn]
type = ParsedFunction
value = -4
[../]
[./bottom_bc_fn]
type = ParsedFunction
value = -2*y
[../]
[./right_bc_fn]
type = ParsedFunction
value = 2*x
[../]
[./top_bc_fn]
type = ParsedFunction
value = 2*y
[../]
[./left_bc_fn]
type = ParsedFunction
value = -2*x
[../]
[]
[AuxVariables]
[./disp_x]
family = LAGRANGE
order = SECOND
[../]
[./disp_y]
family = LAGRANGE
order = SECOND
[../]
[]
[AuxKernels]
[./disp_x_ak]
type = ConstantAux
variable = disp_x
value = 0
[../]
[./disp_y_ak]
type = ConstantAux
variable = disp_y
value = 0
[../]
[]
# NL
[Variables]
[./u]
family = LAGRANGE
order = SECOND
[../]
[./lambda]
family = SCALAR
order = FIRST
[../]
[]
[Kernels]
[./diff]
type = Diffusion
variable = u
[../]
[./ffnk]
type = BodyForce
variable = u
function = ffn
[../]
[./sk_lm]
type = ScalarLagrangeMultiplier
variable = u
lambda = lambda
[../]
[]
[ScalarKernels]
[./constraint]
type = PostprocessorCED
variable = lambda
pp_name = pp
value = 2.666666666666666
# overrride the global setting, scalar kernels do not live on a mesh
use_displaced_mesh = false
[../]
[]
[BCs]
[./bottom]
type = FunctionNeumannBC
variable = u
boundary = '0'
function = bottom_bc_fn
[../]
[./right]
type = FunctionNeumannBC
variable = u
boundary = '1'
function = right_bc_fn
[../]
[./top]
type = FunctionNeumannBC
variable = u
boundary = '2'
function = top_bc_fn
[../]
[./left]
type = FunctionNeumannBC
variable = u
boundary = '3'
function = left_bc_fn
[../]
[]
[Postprocessors]
[./pp]
type = ElementIntegralVariablePostprocessor
variable = u
execute_on = linear
[../]
[./l2_err]
type = ElementL2Error
variable = u
function = exact_fn
execute_on = 'initial timestep_end'
[../]
[]
[Preconditioning]
[./pc]
type = SMP
full = true
solve_type = 'PJFNK'
[../]
[]
[Executioner]
type = Steady
nl_rel_tol = 1e-14
l_tol = 1e-7
[]
[Outputs]
exodus = true
hide = lambda
[]
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/glued_kinematic_sm.i
[Mesh]
file = blocks_2d_nogap.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.01
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e7
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.10
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
system = Constraint
master = 2
slave = 3
model = glued
penalty = 1e+6
[../]
[]
modules/combined/test/tests/sliding_block/in_and_out/dirac/sm/frictionless_penalty_sm.i
# This is a benchmark test that checks Dirac based frictionless
# contact using the penalty method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2. The gold file is run
# on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
displacements = 'disp_x disp_y'
volumetric_locking_correction = false
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-7
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
formulation = penalty
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_1/plane1_template1.i
[GlobalParams]
volumetric_locking_correction = true
displacements = 'disp_x disp_y'
[]
[Mesh]
file = plane1_mesh.e
[]
[Problem]
type = ReferenceResidualProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Kernels]
[./TensorMechanics]
use_displaced_mesh = true
save_in = 'saved_x saved_y'
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xx
index_i = 0
index_j = 0
execute_on = timestep_end
[../]
[./stress_yy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_yy
index_i = 1
index_j = 1
execute_on = timestep_end
[../]
[./stress_xy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xy
index_i = 0
index_j = 1
execute_on = timestep_end
[../]
[./stress_zz]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_zz
index_i = 2
index_j = 2
execute_on = timestep_end
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x2]
type = NodalVariableValue
nodeid = 1
variable = disp_x
[../]
[./disp_x7]
type = NodalVariableValue
nodeid = 6
variable = disp_x
[../]
[./disp_y2]
type = NodalVariableValue
nodeid = 1
variable = disp_y
[../]
[./disp_y7]
type = NodalVariableValue
nodeid = 6
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./bot_strain]
type = ComputeIncrementalSmallStrain
block = '1'
[../]
[./bot_stress]
type = ComputeFiniteStrainElasticStress
block = '1'
[../]
[./top_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./top_strain]
type = ComputeIncrementalSmallStrain
block = '2'
[../]
[./top_stress]
type = ComputeFiniteStrainElasticStress
block = '2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-10
nl_rel_tol = 1e-9
l_max_its = 50
nl_max_its = 100
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x2 disp_y2 disp_x7 disp_y7 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
[../]
[]
modules/combined/test/tests/sliding_block/in_and_out/dirac/sm/frictionless_kinematic_sm.i
# This is a benchmark test that checks Dirac based frictionless
# contact using the kinematic method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2. The gold file is run
# on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
displacements = 'disp_x disp_y'
volumetric_locking_correction = false
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-7
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+6
formulation = kinematic
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
modules/combined/test/tests/sliding_block/sliding/constraint/frictionless_penalty.i
# This is a benchmark test that checks constraint based frictionless
# contact using the penalty method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./left_stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
formulation = penalty
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
test/tests/outputs/variables/output_vars_test.i
[Mesh]
type = GeneratedMesh
dim = 2
xmin = 0
xmax = 1
ymin = 0
ymax = 1
nx = 10
ny = 10
elem_type = QUAD9
[]
[Variables]
[./u]
order = FIRST
family = LAGRANGE
[../]
[./v]
order = SECOND
family = LAGRANGE
[../]
# ODE variables
[./x]
family = SCALAR
order = FIRST
initial_condition = 1
[../]
[./y]
family = SCALAR
order = FIRST
initial_condition = 2
[../]
[]
[AuxVariables]
[./elemental]
order = CONSTANT
family = MONOMIAL
[../]
[./elemental_restricted]
order = CONSTANT
family = MONOMIAL
[../]
[./nodal]
order = FIRST
family = LAGRANGE
[../]
[./nodal_restricted]
order = FIRST
family = LAGRANGE
[../]
[]
[Kernels]
[./td]
type = TimeDerivative
variable = u
[../]
[./diff_u]
type = Diffusion
variable = u
[../]
[./conv_u]
type = CoupledForce
variable = u
v = v
[../]
[./diff_v]
type = Diffusion
variable = v
[../]
[]
[AuxKernels]
[./elemental]
type = ConstantAux
variable = elemental
value = 1
[../]
[./elemental_restricted]
type = ConstantAux
variable = elemental_restricted
value = 1
[../]
[./nodal]
type = ConstantAux
variable = elemental
value = 2
[../]
[./nodal_restricted]
type = ConstantAux
variable = elemental_restricted
value = 2
[../]
[]
[ScalarKernels]
[./td1]
type = ODETimeDerivative
variable = x
[../]
[./ode1]
type = ImplicitODEx
variable = x
y = y
[../]
[./td2]
type = ODETimeDerivative
variable = y
[../]
[./ode2]
type = ImplicitODEy
variable = y
x = x
[../]
[]
[BCs]
active = 'left_u right_u left_v'
[./left_u]
type = DirichletBC
variable = u
boundary = 1
value = 1
[../]
[./right_u]
type = DirichletBC
variable = u
boundary = 3
value = 9
[../]
[./left_v]
type = DirichletBC
variable = v
boundary = 1
value = 5
[../]
[./right_v]
type = DirichletBC
variable = v
boundary = 2
value = 2
[../]
[]
[Postprocessors]
[./x]
type = ScalarVariable
variable = x
execute_on = 'initial timestep_end'
[../]
[./y]
type = ScalarVariable
variable = y
execute_on = 'initial timestep_end'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
dt = 0.01
num_steps = 1
[]
[Outputs]
show = 'x u nodal elemental'
[./out]
type = Exodus
elemental_as_nodal = true
scalar_as_nodal = true
[../]
[]
test/tests/transfers/multiapp_userobject_transfer/3d_1d_sub.i
[Mesh]
type = GeneratedMesh
dim = 1
nx = 10
elem_type = EDGE2
displacements = 'disp_x disp_y disp_z'
[]
[Functions]
[./disp_x_fn]
type = ParsedFunction
value = '-x'
[../]
[./disp_z_fn]
type = ParsedFunction
value = 'x'
[../]
[]
[AuxVariables]
[./sub_app_var]
family = MONOMIAL
order = CONSTANT
[../]
[./disp_x]
[../]
[./disp_y]
[../]
[./disp_z]
[../]
[]
[AuxKernels]
[./disp_x_ak]
type = FunctionAux
variable = disp_x
function = 'disp_x_fn'
[../]
[./disp_y_ak]
type = ConstantAux
variable = disp_y
value = 0
[../]
[./disp_z_ak]
type = FunctionAux
variable = disp_z
function = 'disp_z_fn'
[../]
[]
[UserObjects]
[./sub_app_uo]
type = LayeredAverage
direction = z
variable = u
num_layers = 10
execute_on = TIMESTEP_END
use_displaced_mesh = true
[../]
[]
[Variables]
[./u]
[../]
[]
[Kernels]
[./td]
type = TimeDerivative
variable = u
[../]
[./diff]
type = Diffusion
variable = u
[../]
[]
[BCs]
[./left]
type = DirichletBC
variable = u
boundary = left
value = 1
[../]
[./right]
type = DirichletBC
variable = u
boundary = right
value = 2
[../]
[]
[Executioner]
type = Transient
solve_type = NEWTON
[]
[Outputs]
exodus = true
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_3/plane3_template2_sm.i
[Mesh]
file = plane3_mesh.e
[]
[GlobalParams]
order = SECOND
displacements = 'disp_x disp_y'
[]
[Problem]
type = AugmentedLagrangianContactProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
maximum_lagrangian_update_iterations = 200
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[./tang_force_x]
[../]
[./tang_force_y]
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
save_in_disp_y = saved_y
save_in_disp_x = saved_x
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = MaterialTensorAux
tensor = stress
variable = stress_xx
index = 0
[../]
[./stress_yy]
type = MaterialTensorAux
tensor = stress
variable = stress_yy
index = 1
[../]
[./stress_xy]
type = MaterialTensorAux
tensor = stress
variable = stress_xy
index = 3
[../]
[./stress_zz]
type = MaterialTensorAux
tensor = stress
variable = stress_zz
index = 2
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x2]
type = NodalVariableValue
nodeid = 1
variable = disp_x
[../]
[./disp_x11]
type = NodalVariableValue
nodeid = 10
variable = disp_x
[../]
[./disp_y2]
type = NodalVariableValue
nodeid = 1
variable = disp_y
[../]
[./disp_y11]
type = NodalVariableValue
nodeid = 10
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot]
type = LinearIsotropicMaterial
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./top]
type = LinearIsotropicMaterial
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-10
nl_rel_tol = 1e-8
l_max_its = 100
nl_max_its = 200
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x2 disp_y2 disp_x11 disp_y11 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
al_penetration_tolerance = 1e-8
[../]
[]
modules/combined/test/tests/sliding_block/sliding/dirac/sm/frictionless_kinematic_sm.i
# This is a benchmark test that checks Dirac based frictionless
# contact using the kinematic method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_hypre_type -pc_hypre_boomeramg_max_iter -ksp_gmres_restart'
petsc_options_value = 'hypre boomeramg 4 101'
line_search = 'none'
nl_abs_tol = 1e-7
l_max_its = 100
nl_max_its = 1000
dt = 0.05
end_time = 10
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+6
formulation = kinematic
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
modules/combined/test/tests/sliding_block/sliding/dirac/sm/frictional_04_penalty_sm.i
# This is a benchmark test that checks Dirac based frictional
# contact using the penalty method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# A friction coefficient of 0.4 is used. The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-7
l_max_its = 100
nl_max_its = 1000
dt = 0.05
end_time = 10
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
formulation = penalty
friction_coefficient = 0.4
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/glued_kinematic_dirac.i
# This is a dirac (contact formulation) version of glued_kinematic.i
[Mesh]
file = blocks_2d_nogap.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.01
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e7
poissons_ratio = 0.3
[../]
[./right]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.10
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
master = 2
slave = 3
model = glued
penalty = 1e+6
system = diracKernel
[../]
[]
test/tests/misc/selective_reinit/selective_reinit_test.i
[Mesh]
type = GeneratedMesh
dim = 2
nx = 10
ny = 10
[]
[Variables]
[./u]
[../]
[]
[AuxVariables]
[./dummy]
order = CONSTANT
family = MONOMIAL
[../]
[]
[Kernels]
[./diff]
type = Diffusion
variable = u
[../]
[]
[AuxKernels]
[./constant_dummy]
type = ConstantAux
variable = dummy
execute_on = 'initial timestep_end'
value = 4
[../]
[]
[BCs]
[./left]
type = DirichletBC
variable = u
boundary = left
value = 0
[../]
[./right]
type = DirichletBC
variable = u
boundary = right
value = 1
[../]
[]
[Postprocessors]
[./u_integral]
type = ElementIntegralVariablePostprocessor
variable = u
execute_on = linear
[../]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_hypre_type'
petsc_options_value = 'hypre boomeramg'
[]
[Adaptivity]
[./Indicators]
[./indicator]
type = GradientJumpIndicator
variable = u
[../]
[../]
[./Markers]
[./box]
type = BoxMarker
bottom_left = '0.2 0.2 0'
top_right = '0.8 0.8 0'
inside = refine
outside = coarsen
[../]
[../]
[]
[Outputs]
exodus = true
show = u
[]
[LotsOfAuxVariables]
[./avar]
number = 2000
[../]
[]
test/tests/outputs/variables/hide_output_via_variables_block.i
[Mesh]
type = GeneratedMesh
dim = 2
xmin = 0
xmax = 1
ymin = 0
ymax = 1
nx = 10
ny = 10
elem_type = QUAD9
[]
[Variables]
[./u]
order = FIRST
family = LAGRANGE
outputs = none
[../]
[./v]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./elemental]
order = CONSTANT
family = MONOMIAL
outputs = none
[../]
[]
[Kernels]
[./diff_u]
type = Diffusion
variable = u
[../]
[./diff_v]
type = Diffusion
variable = v
[../]
[]
[AuxKernels]
[./elemental]
type = ConstantAux
variable = elemental
value = 1
[../]
[]
[BCs]
[./left_u]
type = DirichletBC
variable = u
boundary = 1
value = 1
[../]
[./right_u]
type = DirichletBC
variable = u
boundary = 3
value = 9
[../]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
[]
[Outputs]
exodus = true
[]
modules/combined/test/tests/sliding_block/in_and_out/constraint/sm/frictionless_penalty_contact_line_search_sm.i
# This is a benchmark test that checks constraint based frictionless
# contact using the penalty method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2. The gold file is run
# on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[./tot_nonlin_it]
type = CumulativeValuePostprocessor
postprocessor = nonlinear_its
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Preconditioning]
[./smp]
type = SMP
full = true
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-ksp_monitor_true_residual'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'contact'
contact_line_search_ltol = .5
contact_line_search_allowed_lambda_cuts = 0
l_max_its = 100
nl_max_its = 20
dt = 0.1
end_time = 3
# num_steps = 30
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[]
[Outputs]
perf_graph = true
print_linear_residuals = false
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
formulation = penalty
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
test/tests/auxkernels/nodal_aux_var/nodal_sort_test.i
[Mesh]
file = square.e
[]
[Variables]
[./u]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./one]
order = FIRST
family = LAGRANGE
initial_condition = 0
[../]
[./two]
order = FIRST
family = LAGRANGE
[../]
[]
[Kernels]
[./diff]
type = Diffusion
variable = u
[../]
[]
[AuxKernels]
# Intentionally out of order to test sorting capabiilties
active = 'one two'
[./two]
variable = two
type = CoupledAux
value = 2
operator = '/'
coupled = one
[../]
[./one]
variable = one
type = ConstantAux
value = 1
[../]
[./five]
type = ConstantAux
variable = five
boundary = '1 2'
value = 5
[../]
[]
[BCs]
active = 'left right'
[./left]
type = DirichletBC
variable = u
boundary = 1
value = 0
[../]
[./right]
type = DirichletBC
variable = u
boundary = 2
value = 1
[../]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[]
test/tests/auxkernels/element_aux_var/l2_element_aux_var_test.i
[Mesh]
file = square.e
second_order = true
[]
[Variables]
[./u]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./l2_lagrange]
order = FIRST
family = L2_LAGRANGE
[../]
[./l2_hierarchic]
order = FIRST
family = L2_HIERARCHIC
[../]
[./one]
order = CONSTANT
family = MONOMIAL
[../]
[]
[Kernels]
# Coupling of nonlinear to Aux
[./diff]
type = Diffusion
variable = u
[../]
[./force]
type = CoupledForce
variable = u
v = one
[../]
[]
[AuxKernels]
[./coupled_l2_lagrange]
variable = l2_lagrange
type = CoupledAux
value = 2
operator = +
coupled = u
execute_on = 'initial timestep_end'
[../]
[./coupled_l2_hierarchic]
variable = l2_hierarchic
type = CoupledAux
value = 2
operator = +
coupled = u
execute_on = 'initial timestep_end'
[../]
[./constant]
variable = one
type = ConstantAux
value = 1
execute_on = 'initial timestep_end'
[../]
[]
[BCs]
[./left]
type = DirichletBC
variable = u
boundary = 1
value = 0
[../]
[./right]
type = DirichletBC
variable = u
boundary = 2
value = 1
[../]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
[]
[Postprocessors]
[./int2_u]
type = ElementL2Norm
variable = u
execute_on = 'initial timestep_end'
[../]
[./int2_l2_lagrange]
type = ElementL2Norm
variable = l2_lagrange
execute_on = 'initial timestep_end'
[../]
[./int2_l2_hierarchic]
type = ElementL2Norm
variable = l2_hierarchic
execute_on = 'initial timestep_end'
[../]
[./int_u]
type = ElementIntegralVariablePostprocessor
variable = u
execute_on = 'initial timestep_end'
[../]
[./int_l2_lagrange]
type = ElementIntegralVariablePostprocessor
variable = l2_lagrange
execute_on = 'initial timestep_end'
[../]
[./int_l2_hierarchic]
type = ElementIntegralVariablePostprocessor
variable = l2_hierarchic
execute_on = 'initial timestep_end'
[../]
[]
[Outputs]
[./ex_out]
type = Exodus
file_base = l2elemaux
elemental_as_nodal = true
[../]
[]
modules/tensor_mechanics/test/tests/beam/eigenstrain/eigenstrain_from_var.i
# Test for eigenstrain from variables
# A constant axial eigenstrain of 0.01 is applied to a beam of length
# 4 m. The beam is fixed at one end. The eigenstrain causes a change in
# length of 0.04 m irrespective of the material properties of the beam.
[Mesh]
type = GeneratedMesh
dim = 1
nx = 10
xmin = 0.0
xmax = 4.0
displacements = 'disp_x disp_y disp_z'
[]
[Variables]
[./disp_x]
order = FIRST
family = LAGRANGE
[../]
[./disp_y]
order = FIRST
family = LAGRANGE
[../]
[./disp_z]
order = FIRST
family = LAGRANGE
[../]
[./rot_x]
order = FIRST
family = LAGRANGE
[../]
[./rot_y]
order = FIRST
family = LAGRANGE
[../]
[./rot_z]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./thermal_eig]
[../]
[./zero1]
[../]
[./zero2]
[../]
[]
[AuxKernels]
[./thermal_eig]
type = ConstantAux
value = 0.01
variable = thermal_eig
[../]
[]
[BCs]
[./fixx1]
type = DirichletBC
variable = disp_x
boundary = left
value = 0.0
[../]
[./fixy1]
type = DirichletBC
variable = disp_y
boundary = left
value = 0.0
[../]
[./fixz1]
type = DirichletBC
variable = disp_z
boundary = left
value = 0.0
[../]
[./fixr1]
type = DirichletBC
variable = rot_x
boundary = left
value = 0.0
[../]
[./fixr2]
type = DirichletBC
variable = rot_y
boundary = left
value = 0.0
[../]
[./fixr3]
type = DirichletBC
variable = rot_z
boundary = left
value = 0.0
[../]
[]
[Preconditioning]
[./smp]
type = SMP
full = true
[../]
[]
[Executioner]
type = Transient
solve_type = NEWTON
line_search = 'none'
nl_max_its = 15
nl_rel_tol = 1e-10
nl_abs_tol = 1e-10
dt = 1
dtmin = 1
end_time = 2
[]
[Kernels]
[./solid_disp_x]
type = StressDivergenceBeam
block = '0'
displacements = 'disp_x disp_y disp_z'
rotations = 'rot_x rot_y rot_z'
component = 0
variable = disp_x
[../]
[./solid_disp_y]
type = StressDivergenceBeam
block = '0'
displacements = 'disp_x disp_y disp_z'
rotations = 'rot_x rot_y rot_z'
component = 1
variable = disp_y
[../]
[./solid_disp_z]
type = StressDivergenceBeam
block = '0'
displacements = 'disp_x disp_y disp_z'
rotations = 'rot_x rot_y rot_z'
component = 2
variable = disp_z
[../]
[./solid_rot_x]
type = StressDivergenceBeam
block = '0'
displacements = 'disp_x disp_y disp_z'
rotations = 'rot_x rot_y rot_z'
component = 3
variable = rot_x
[../]
[./solid_rot_y]
type = StressDivergenceBeam
block = '0'
displacements = 'disp_x disp_y disp_z'
rotations = 'rot_x rot_y rot_z'
component = 4
variable = rot_y
[../]
[./solid_rot_z]
type = StressDivergenceBeam
block = '0'
displacements = 'disp_x disp_y disp_z'
rotations = 'rot_x rot_y rot_z'
component = 5
variable = rot_z
[../]
[]
[Materials]
[./elasticity]
type = ComputeElasticityBeam
youngs_modulus = 1e6
poissons_ratio = 0.3
shear_coefficient = 1.0
block = 0
[../]
[./strain]
type = ComputeIncrementalBeamStrain
block = '0'
displacements = 'disp_x disp_y disp_z'
rotations = 'rot_x rot_y rot_z'
area = 0.5
Ay = 0.0
Az = 0.0
Iy = 0.01
Iz = 0.01
y_orientation = '0.0 1.0 0.0'
eigenstrain_names = 'thermal'
[../]
[./stress]
type = ComputeBeamResultants
block = 0
[../]
[./thermal]
type = ComputeEigenstrainBeamFromVariable
displacement_eigenstrain_variables = 'thermal_eig zero1 zero2'
eigenstrain_name = thermal
[../]
[]
[Postprocessors]
[./disp_x]
type = PointValue
point = '4.0 0.0 0.0'
variable = disp_x
[../]
[./disp_y]
type = PointValue
point = '4.0 0.0 0.0'
variable = disp_y
[../]
[]
[Outputs]
[./out]
type = Exodus
hide = 'thermal_eig zero1 zero2'
[../]
[]
modules/combined/test/tests/sliding_block/sliding/constraint/sm/frictional_02_penalty_sm.i
# This is a benchmark test that checks constraint based frictional
# contact using the penalty method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# A friction coefficient of 0.2 is used. The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = coulomb
penalty = 1e+7
friction_coefficient = 0.2
formulation = penalty
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
modules/combined/test/tests/sliding_block/in_and_out/constraint/frictionless_penalty_contact_line_search.i
# This is a benchmark test that checks constraint based frictionless
# contact using the penalty method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2. The gold file is run
# on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[./tot_nonlin_it]
type = CumulativeValuePostprocessor
postprocessor = nonlinear_its
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Preconditioning]
[./smp]
type = SMP
full = true
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-ksp_monitor_true_residual'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'contact'
contact_line_search_ltol = .5
contact_line_search_allowed_lambda_cuts = 0
l_max_its = 100
nl_max_its = 20
dt = 0.1
end_time = 3
# num_steps = 30
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[]
[Outputs]
perf_graph = true
print_linear_residuals = false
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
formulation = penalty
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
test/tests/ics/dependency/test.i
[Mesh]
type = GeneratedMesh
dim = 2
xmin = 0
xmax = 1
ymin = 0
ymax = 1
nx = 2
ny = 2
[]
[AuxVariables]
[./a]
[../]
[./b]
[../]
[]
[Variables]
[./u]
[../]
[./v]
[../]
[]
[ICs]
[./u_ic]
type = ConstantIC
variable = u
value = -1
[../]
[./v_ic]
type = MTICSum
variable = v
var1 = u
var2 = a
[../]
[./a_ic]
type = ConstantIC
variable = a
value = 10
[../]
[./b_ic]
type = MTICMult
variable = b
var1 = v
factor = 2
[../]
[]
[AuxKernels]
[./a_ak]
type = ConstantAux
variable = a
value = 256
[../]
[./b_ak]
type = ConstantAux
variable = b
value = 42
[../]
[]
[Kernels]
[./diff_u]
type = Diffusion
variable = u
[../]
[./diff_v]
type = Diffusion
variable = v
[../]
[]
[BCs]
[./left_u]
type = DirichletBC
variable = u
boundary = left
value = 0
[../]
[./right_u]
type = DirichletBC
variable = u
boundary = right
value = 1
[../]
[./left_v]
type = DirichletBC
variable = v
boundary = left
value = 2
[../]
[./right_v]
type = DirichletBC
variable = v
boundary = right
value = 1
[../]
[]
[Executioner]
type = Steady
solve_type = 'NEWTON'
nl_rel_tol = 1e-10
[]
[Outputs]
exodus = true
[]
test/tests/constraints/nodal_constraint/nodal_constraint_displaced_test.i
[Mesh]
file = 2-lines.e
displacements = 'disp_x'
[]
[AuxVariables]
[./disp_x]
[../]
[]
[AuxKernels]
[./disp_x_ak]
type = ConstantAux
variable = disp_x
value = 1
[../]
[]
[Variables]
[./u]
[../]
[]
[Kernels]
[./diff]
type = Diffusion
variable = u
[../]
[]
[BCs]
[./left]
type = DirichletBC
variable = u
boundary = 1
value = 1
[../]
[./right]
type = DirichletBC
variable = u
boundary = 4
value = 3
[../]
[]
[Constraints]
[./c1]
type = EqualValueNodalConstraint
variable = u
master = 0
slave = 4
penalty = 100000
use_displaced_mesh = true
[../]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
[]
[Outputs]
exodus = true
[]
test/tests/userobjects/layered_average/layered_average_1d_displaced.i
# This tests that Layered user objects work with displaced meshes. Originally,
# the mesh is aligned with x-axis. Then we displace the mesh to be aligned with
# z-axis and sample along the z-direction.
[Mesh]
type = GeneratedMesh
dim = 1
nx = 5
elem_type = EDGE2
displacements = 'disp_x disp_y disp_z'
[]
[Functions]
[./left_fn]
type = ParsedFunction
value = 't + 1'
[../]
[./disp_x_fn]
type = ParsedFunction
value = '-x'
[../]
[./disp_z_fn]
type = ParsedFunction
value = 'x'
[../]
[]
[AuxVariables]
[./la]
family = MONOMIAL
order = CONSTANT
[../]
[./disp_x]
[../]
[./disp_y]
[../]
[./disp_z]
[../]
[]
[AuxKernels]
[./la_ak]
type = SpatialUserObjectAux
variable = la
user_object = la_uo
execute_on = TIMESTEP_END
use_displaced_mesh = true
[../]
[./disp_x_ak]
type = FunctionAux
variable = disp_x
function = 'disp_x_fn'
[../]
[./disp_y_ak]
type = ConstantAux
variable = disp_y
value = 0
[../]
[./disp_z_ak]
type = FunctionAux
variable = disp_z
function = 'disp_z_fn'
[../]
[]
[UserObjects]
[./la_uo]
type = LayeredAverage
direction = z
variable = u
num_layers = 5
execute_on = TIMESTEP_END
use_displaced_mesh = true
[../]
[]
[Variables]
[./u]
[../]
[]
[Kernels]
[./td]
type = TimeDerivative
variable = u
[../]
[./diff]
type = Diffusion
variable = u
[../]
[]
[BCs]
[./left]
type = FunctionDirichletBC
variable = u
boundary = left
function = left_fn
[../]
[./right]
type = DirichletBC
variable = u
boundary = right
value = 0
[../]
[]
[Executioner]
type = Transient
dt = 1
num_steps = 2
solve_type = NEWTON
[]
[Outputs]
exodus = true
[]
modules/tensor_mechanics/test/tests/truss/truss_hex.i
# This test is designed to check
# whether truss element works well with other multi-dimensional element
# e.g. the hex element in this case, by assigning different brock number
# to different types of elements.
[Mesh]
type = FileMesh
file = truss_hex.e
displacements = 'disp_x disp_y disp_z'
[]
[Variables]
[./disp_x]
order = FIRST
family = LAGRANGE
[../]
[./disp_y]
order = FIRST
family = LAGRANGE
[../]
[./disp_z]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./axial_stress]
order = CONSTANT
family = MONOMIAL
[../]
[./e_over_l]
order = CONSTANT
family = MONOMIAL
[../]
[./area]
order = CONSTANT
family = MONOMIAL
# initial_condition = 1.0
[../]
[./react_x]
order = FIRST
family = LAGRANGE
[../]
[./react_y]
order = FIRST
family = LAGRANGE
[../]
[./react_z]
order = FIRST
family = LAGRANGE
[../]
[]
[Functions]
[./x2]
type = PiecewiseLinear
x = '0 1 2 3'
y = '0 .5 1 1'
[../]
[./y2]
type = PiecewiseLinear
x = '0 1 2 3'
y = '0 0 .5 1'
[../]
[]
[BCs]
[./fixx1]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./fixy1]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0
[../]
[./fixz1]
type = DirichletBC
variable = disp_z
boundary = 1
value = 0
[../]
[./fixx2]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0
[../]
[./fixz2]
type = DirichletBC
variable = disp_z
boundary = 2
value = 0
[../]
[./fixDummyHex_x]
type = DirichletBC
variable = disp_x
boundary = 1000
value = 0
[../]
[./fixDummyHex_y]
type = DirichletBC
variable = disp_y
boundary = 1000
value = 0
[../]
[./fixDummyHex_z]
type = DirichletBC
variable = disp_z
boundary = 1000
value = 0
[../]
[]
[DiracKernels]
[./pull]
type = ConstantPointSource
value = -25
point = '0 -2 0'
variable = disp_y
[../]
[]
[AuxKernels]
[./axial_stress]
type = MaterialRealAux
block = '1 2'
property = axial_stress
variable = axial_stress
[../]
[./e_over_l]
type = MaterialRealAux
block = '1 2'
property = e_over_l
variable = e_over_l
[../]
[./area1]
type = ConstantAux
block = 1
variable = area
value = 1.0
execute_on = 'initial timestep_begin'
[../]
[./area2]
type = ConstantAux
block = 2
variable = area
value = 0.25
execute_on = 'initial timestep_begin'
[../]
[]
[Preconditioning]
[./SMP]
type = SMP
full = true
[../]
[]
[Executioner]
type = Transient
solve_type = PJFNK
petsc_options_iname = '-pc_type -ksp_gmres_restart'
petsc_options_value = 'jacobi 101'
nl_max_its = 15
nl_rel_tol = 1e-8
nl_abs_tol = 1e-10
dt = 1
num_steps = 1
end_time = 1
[]
[Kernels]
[./truss_x]
type = StressDivergenceTensorsTruss
block = '1 2'
variable = disp_x
displacements = 'disp_x disp_y disp_z'
component = 0
area = area
save_in = react_x
[../]
[./truss_y]
type = StressDivergenceTensorsTruss
block = '1 2'
variable = disp_y
component = 1
displacements = 'disp_x disp_y disp_z'
area = area
save_in = react_y
[../]
[./truss_z]
type = StressDivergenceTensorsTruss
block = '1 2'
variable = disp_z
component = 2
displacements = 'disp_x disp_y disp_z'
area = area
save_in = react_z
[../]
[./TensorMechanics]
block = 1000
displacements = 'disp_x disp_y disp_z'
[../]
# [./hex_x]
# type = StressDivergenceTensors
# block = 1000
# variable = disp_x
# component = 0
# displacements = 'disp_x disp_y disp_z'
# [../]
# [./hex_y]
# type = StressDivergenceTensors
# block = 1000
# variable = disp_y
# component = 1
# displacements = 'disp_x disp_y disp_z'
# [../]
# [./hex_z]
# type = StressDivergenceTensors
# block = 1000
# variable = disp_z
# component = 2
# displacements = 'disp_x disp_y disp_z'
# [../]
[]
[Materials]
[./elasticity_tensor]
type = ComputeIsotropicElasticityTensor
block = 1000
youngs_modulus = 1e6
poissons_ratio = 0
[../]
[./strain]
type = ComputeSmallStrain
block = 1000
displacements = 'disp_x disp_y disp_z'
[../]
[./stress]
type = ComputeLinearElasticStress
block = 1000
[../]
[./linelast]
type = LinearElasticTruss
block = '1 2'
displacements = 'disp_x disp_y disp_z'
youngs_modulus = 1e6
[../]
[]
[Outputs]
exodus = true
[]
modules/combined/test/tests/sliding_block/sliding/constraint/frictionless_kinematic.i
# This is a benchmark test that checks constraint based frictionless
# contact using the kinematic method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./left_stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -sub_pc_type -pc_asm_overlap -ksp_gmres_restart'
petsc_options_value = 'asm lu 20 101'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+6
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/frictionless_penalty_dirac_sm.i
# This is a dirac (contact formulation) version of frictionless_penalty.i
[Mesh]
file = blocks_2d.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e7
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.10
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
master = 2
slave = 3
model = frictionless
formulation = penalty
penalty = 1e+7
system = dirackernel
[../]
[]
test/tests/postprocessors/volume/sphere1D.i
# The volume of each block should be 3
[Mesh]#Comment
file = sphere1D.e
[] # Mesh
[Problem]
coord_type = RSPHERICAL
[]
[Functions]
[./fred]
type = ParsedFunction
value='200'
[../]
[] # Functions
[AuxVariables]
[./constantVar]
order = FIRST
family = LAGRANGE
[../]
[]
[Variables]
[./u]
order = FIRST
family = LAGRANGE
initial_condition = 100
[../]
[] # Variables
[AuxKernels]
[./fred]
type = ConstantAux
variable = constantVar
block = 1
value = 1
[../]
[]
[ICs]
[./ic1]
type = ConstantIC
variable = constantVar
value = 1
block = 1
[../]
[]
[Kernels]
[./heat_r]
type = Diffusion
variable = u
[../]
[] # Kernels
[BCs]
[./temps]
type = FunctionDirichletBC
variable = u
boundary = 1
function = fred
[../]
[] # BCs
[Materials]
[] # Materials
[Executioner]
type = Steady
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -snes_ls -ksp_gmres_restart'
petsc_options_value = 'lu basic 101'
line_search = 'none'
nl_abs_tol = 1e-11
nl_rel_tol = 1e-10
l_max_its = 20
[] # Executioner
[Postprocessors]
[./should_be_one]
type = ElementAverageValue
block = 1
variable = constantVar
execute_on = 'initial timestep_end'
[../]
[./volume1]
type = VolumePostprocessor
block = 1
execute_on = 'initial timestep_end'
[../]
[./volume2]
type = VolumePostprocessor
block = 2
execute_on = 'initial timestep_end'
[../]
[./volume3]
type = VolumePostprocessor
block = 3
execute_on = 'initial timestep_end'
[../]
[]
[Outputs]
exodus = true
[] # Output
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/glued_kinematic_dirac_sm.i
# This is a dirac (contact formulation) version of glued_kinematic.i
[Mesh]
file = blocks_2d_nogap.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.01
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e7
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.10
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
master = 2
slave = 3
model = glued
penalty = 1e+6
system = dirackernel
[../]
[]
modules/combined/test/tests/sliding_block/sliding/constraint/frictional_02_aug.i
# This is a benchmark test that checks constraint based frictional
# contact using the augmented lagrangian method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# A friction coefficient of 0.2 is used. The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
displacements = 'disp_x disp_y'
volumetric_locking_correction = false
[]
[AuxVariables]
[./contact_traction]
[../]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./tang_force_x]
[../]
[./tang_force_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
save_in = 'saved_x saved_y'
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
l_max_its = 20
nl_max_its = 200
dt = 0.1
end_time = 15
num_steps = 200
l_tol = 1e-6
nl_rel_tol = 1e-8
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Problem]
type = AugmentedLagrangianContactProblem
solution_variables = 'disp_x disp_y'
extra_tag_vectors = 'ref'
reference_vector = 'ref'
maximum_lagrangian_update_iterations = 100
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = coulomb
penalty = 1e+7
friction_coefficient = 0.2
formulation = augmented_lagrange
system = constraint
normalize_penalty = true
al_penetration_tolerance = 1e-6
al_incremental_slip_tolerance = 1.0e-2
al_frictional_force_tolerance = 1e-3
[../]
[]
[Preconditioning]
[./SMP]
type = SMP
full = true
[../]
[]
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/glued_penalty_dirac_sm.i
# This is a dirac (contact formulation) version of glued_penalty.i
[Mesh]
file = blocks_2d_nogap.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.01
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e7
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.10
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
master = 2
slave = 3
model = glued
formulation = penalty
penalty = 1e+7
system = dirackernel
[../]
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_2/plane2_template2_sm.i
[Mesh]
file = plane2_mesh.e
[]
[GlobalParams]
displacements = 'disp_x disp_y'
[]
[Problem]
type = AugmentedLagrangianContactProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
maximum_lagrangian_update_iterations = 200
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
save_in_disp_y = saved_y
save_in_disp_x = saved_x
diag_save_in_disp_y = diag_saved_y
diag_save_in_disp_x = diag_saved_x
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = MaterialTensorAux
tensor = stress
variable = stress_xx
index = 0
[../]
[./stress_yy]
type = MaterialTensorAux
tensor = stress
variable = stress_yy
index = 1
[../]
[./stress_xy]
type = MaterialTensorAux
tensor = stress
variable = stress_xy
index = 3
[../]
[./stress_zz]
type = MaterialTensorAux
tensor = stress
variable = stress_zz
index = 2
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x5]
type = NodalVariableValue
nodeid = 4
variable = disp_x
[../]
[./disp_x9]
type = NodalVariableValue
nodeid = 8
variable = disp_x
[../]
[./disp_y5]
type = NodalVariableValue
nodeid = 4
variable = disp_y
[../]
[./disp_y9]
type = NodalVariableValue
nodeid = 8
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot]
type = LinearIsotropicMaterial
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./top]
type = LinearIsotropicMaterial
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-8
nl_rel_tol = 1e-7
l_max_its = 100
nl_max_its = 200
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x5 disp_y5 disp_x9 disp_y9 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
al_penetration_tolerance = 1e-8
[../]
[]
test/tests/auxkernels/nodal_aux_var/nodal_aux_init_test.i
#
# Testing nodal aux variables that are computed only at the end of the time step
#
[Mesh]
type = GeneratedMesh
dim = 2
xmin = 0
xmax = 1
ymin = 0
ymax = 1
nx = 3
ny = 3
[]
[Variables]
active = 'u'
[./u]
order = FIRST
family = LAGRANGE
initial_condition = 5
[../]
[]
[AuxVariables]
active = 'aux1 aux2'
[./aux1]
order = FIRST
family = LAGRANGE
initial_condition = 2
[../]
[./aux2]
order = FIRST
family = LAGRANGE
[../]
[]
[Kernels]
active = 'ie diff force'
[./ie]
type = TimeDerivative
variable = u
[../]
[./diff]
type = Diffusion
variable = u
[../]
#Coupling of nonlinear to Aux
[./force]
type = CoupledForce
variable = u
v = aux2
[../]
[]
[AuxKernels]
active = 'constant field'
#Simple Aux Kernel
[./constant]
variable = aux1
type = ConstantAux
value = 1
execute_on = nonlinear
[../]
#AuxKernel that is setup only before the simulation starts
[./field]
variable = aux2
type = CoupledAux
value = 2
coupled = u
execute_on = initial
[../]
[]
[BCs]
active = 'left right'
[./left]
type = DirichletBC
variable = u
boundary = 1
value = 0
[../]
[./right]
type = DirichletBC
variable = u
boundary = 3
value = 1
[../]
[]
[Executioner]
type = Transient
start_time = 0
dt = 0.1
num_steps = 2
solve_type = 'PJFNK'
[]
[Outputs]
exodus = true
file_base = out_init
[]
test/tests/postprocessors/difference_pps/difference_depend_check.i
[Mesh]
type = GeneratedMesh
dim = 2
xmin = 0
xmax = 1
ymin = 0
ymax = 1
nx = 2
ny = 2
[]
[Variables]
[./u]
[../]
[]
[AuxVariables]
[./v]
[../]
[]
[AuxKernels]
[./one]
type = ConstantAux
variable = v
value = 1
[../]
[]
[Postprocessors]
# This postprocessor is listed first on purpose to give the resolver something to do
[./diff]
type = DifferencePostprocessor
value1 = nodes
value2 = elems
execute_on = 'initial timestep_end'
[../]
[./nodes]
type = NumNodes
execute_on = 'initial timestep_end'
[../]
[./elems]
type = NumElems
execute_on = 'initial timestep_end'
[../]
[]
[Problem]
type = FEProblem
solve = false
kernel_coverage_check = false
[]
[Executioner]
type = Steady
[]
[Outputs]
csv = true
[]
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/frictionless_kinematic.i
[Mesh]
file = blocks_2d.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e7
poissons_ratio = 0.3
[../]
[./right]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.10
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
system = Constraint
master = 2
slave = 3
model = frictionless
penalty = 1e+6
[../]
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_4/plane4_template2.i
[GlobalParams]
order = SECOND
displacements = 'disp_x disp_y'
[]
[Mesh]
file = plane4_mesh.e
[]
[Problem]
type = AugmentedLagrangianContactProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
maximum_lagrangian_update_iterations = 200
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[./tang_force_x]
[../]
[./tang_force_y]
[../]
[]
[Kernels]
[./TensorMechanics]
use_displaced_mesh = true
save_in = 'saved_x saved_y'
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xx
index_i = 0
index_j = 0
execute_on = timestep_end
[../]
[./stress_yy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_yy
index_i = 1
index_j = 1
execute_on = timestep_end
[../]
[./stress_xy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xy
index_i = 0
index_j = 1
execute_on = timestep_end
[../]
[./stress_zz]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_zz
index_i = 2
index_j = 2
execute_on = timestep_end
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x9]
type = NodalVariableValue
nodeid = 8
variable = disp_x
[../]
[./disp_x16]
type = NodalVariableValue
nodeid = 15
variable = disp_x
[../]
[./disp_y9]
type = NodalVariableValue
nodeid = 8
variable = disp_y
[../]
[./disp_y16]
type = NodalVariableValue
nodeid = 15
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./bot_strain]
type = ComputeIncrementalSmallStrain
block = '1'
[../]
[./bot_stress]
type = ComputeFiniteStrainElasticStress
block = '1'
[../]
[./top_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./top_strain]
type = ComputeIncrementalSmallStrain
block = '2'
[../]
[./top_stress]
type = ComputeFiniteStrainElasticStress
block = '2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-9
nl_rel_tol = 1e-7
l_max_its = 100
nl_max_its = 200
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x9 disp_y9 disp_x16 disp_y16 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
al_penetration_tolerance = 1e-8
[../]
[]
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/frictionless_kinematic_dirac.i
# This is a dirac (contact formulation) version of frictionless_kinematic.i
[Mesh]
file = blocks_2d.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e7
poissons_ratio = 0.3
[../]
[./right]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.1
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
master = 2
slave = 3
model = frictionless
penalty = 1e+6
system = diracKernel
[../]
[]
modules/fluid_properties/test/tests/auxkernels/specific_enthalpy_aux.i
[Mesh]
type = GeneratedMesh
dim = 1
nx = 2
[]
[Variables]
[./u]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./pressure]
[../]
[./temperature]
[../]
[./specific_enthalpy]
[../]
[]
[Kernels]
[./diff_u]
type = Diffusion
variable = u
[../]
[]
[AuxKernels]
[./pressure_ak]
type = ConstantAux
variable = pressure
value = 10e6
[../]
[./temperature_ak]
type = ConstantAux
variable = temperature
value = 400.0
[../]
[./specific_enthalpy_ak]
type = SpecificEnthalpyAux
variable = specific_enthalpy
fp = eos
p = pressure
T = temperature
[../]
[]
[Modules]
[./FluidProperties]
[./eos]
type = StiffenedGasFluidProperties
gamma = 2.35
q = -1167e3
q_prime = 0.0
p_inf = 1e9
cv = 1816.0
[../]
[]
[]
[BCs]
[./left_u]
type = DirichletBC
variable = u
boundary = 0
value = 1
[../]
[./right_u]
type = DirichletBC
variable = u
boundary = 1
value = 2
[../]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
[]
[Outputs]
exodus = true
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_1/plane1_template2_sm.i
[Mesh]
file = plane1_mesh.e
[]
[GlobalParams]
displacements = 'disp_x disp_y'
[]
[Problem]
type = AugmentedLagrangianContactProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
maximum_lagrangian_update_iterations = 200
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
save_in_disp_y = saved_y
save_in_disp_x = saved_x
diag_save_in_disp_y = diag_saved_y
diag_save_in_disp_x = diag_saved_x
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = MaterialTensorAux
tensor = stress
variable = stress_xx
index = 0
[../]
[./stress_yy]
type = MaterialTensorAux
tensor = stress
variable = stress_yy
index = 1
[../]
[./stress_xy]
type = MaterialTensorAux
tensor = stress
variable = stress_xy
index = 3
[../]
[./stress_zz]
type = MaterialTensorAux
tensor = stress
variable = stress_zz
index = 2
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x2]
type = NodalVariableValue
nodeid = 1
variable = disp_x
[../]
[./disp_x7]
type = NodalVariableValue
nodeid = 6
variable = disp_x
[../]
[./disp_y2]
type = NodalVariableValue
nodeid = 1
variable = disp_y
[../]
[./disp_y7]
type = NodalVariableValue
nodeid = 6
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot]
type = LinearIsotropicMaterial
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./top]
type = LinearIsotropicMaterial
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
#Preconditioned JFNK (default)
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-10
nl_rel_tol = 1e-9
l_max_its = 50
nl_max_its = 100
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x2 disp_y2 disp_x7 disp_y7 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
al_penetration_tolerance = 1e-8
[../]
[]
modules/combined/test/tests/sliding_block/in_and_out/constraint/sm/frictionless_kinematic_sm.i
# This is a benchmark test that checks constraint based frictionless
# contact using the kinematic method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2. The gold file is run
# on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
displacements = 'disp_x disp_y'
volumetric_locking_correction = false
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -sub_pc_type -pc_asm_overlap -ksp_gmres_restart'
petsc_options_value = 'asm lu 20 101'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+6
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/frictionless_kinematic_sm.i
[Mesh]
file = blocks_2d.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e7
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.10
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
system = Constraint
master = 2
slave = 3
model = frictionless
penalty = 1e+6
[../]
[]
modules/combined/test/tests/sliding_block/in_and_out/dirac/frictional_02_penalty.i
# This is a benchmark test that checks Dirac based frictional
# contact using the penalty method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2 and a friction coefficient
# of 0.2 is used. The gold file is run on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
displacements = 'disp_x disp_y'
volumetric_locking_correction = false
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./constitutive]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-7
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
file_base = frictional_02_penalty_out
interval = 10
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = coulomb
penalty = 1e+7
formulation = penalty
friction_coefficient = 0.2
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
modules/tensor_mechanics/test/tests/truss/truss_plastic.i
[Mesh]
type = GeneratedMesh
dim = 1
elem_type = EDGE
nx = 1
[]
[GlobalParams]
displacements = 'disp_x'
[]
[Variables]
[./disp_x]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./axial_stress]
order = CONSTANT
family = MONOMIAL
[../]
[./e_over_l]
order = CONSTANT
family = MONOMIAL
[../]
[./area]
order = CONSTANT
family = MONOMIAL
[../]
[./react_x]
order = FIRST
family = LAGRANGE
[../]
[]
[Functions]
[./hf]
type = PiecewiseLinear
x = '0 0.0001 0.0003 0.0023'
y = '50e6 52e6 54e6 56e6'
[../]
[]
[BCs]
[./fixx1]
type = DirichletBC
variable = disp_x
boundary = left
value = 0.0
[../]
[./load]
type = FunctionDirichletBC
variable = disp_x
boundary = right
function = 't'
[../]
[]
[AuxKernels]
[./axial_stress]
type = MaterialRealAux
property = axial_stress
variable = axial_stress
[../]
[./e_over_l]
type = MaterialRealAux
property = e_over_l
variable = e_over_l
[../]
[./area]
type = ConstantAux
variable = area
value = 1.0
execute_on = 'initial timestep_begin'
[../]
[]
[Postprocessors]
[./s_xx]
type = ElementIntegralMaterialProperty
mat_prop = axial_stress
[../]
[./e_xx]
type = ElementIntegralMaterialProperty
mat_prop = total_stretch
[../]
[./ee_xx]
type = ElementIntegralMaterialProperty
mat_prop = elastic_stretch
[../]
[./ep_xx]
type = ElementIntegralMaterialProperty
mat_prop = plastic_stretch
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
nl_abs_tol = 1e-11
l_max_its = 20
dt = 5e-5
num_steps = 10
[]
[Kernels]
[./solid]
type = StressDivergenceTensorsTruss
component = 0
variable = disp_x
area = area
save_in = react_x
[../]
[]
[Materials]
[./truss]
type = PlasticTruss
youngs_modulus = 2.0e11
yield_stress = 500e5
outputs = exodus
[../]
[]
[Outputs]
exodus = true
csv = true
[]
modules/tensor_mechanics/test/tests/truss/truss_3d_action.i
[Mesh]
type = FileMesh
file = truss_3d.e
displacements = 'disp_x disp_y disp_z'
[]
[AuxVariables]
[./axial_stress]
order = CONSTANT
family = MONOMIAL
[../]
[./e_over_l]
order = CONSTANT
family = MONOMIAL
[../]
[./area]
order = CONSTANT
family = MONOMIAL
[../]
[./react_x]
order = FIRST
family = LAGRANGE
[../]
[./react_y]
order = FIRST
family = LAGRANGE
[../]
[./react_z]
order = FIRST
family = LAGRANGE
[../]
[]
[Functions]
[./x2]
type = PiecewiseLinear
x = '0 1 2 3'
y = '0 .5 1 1'
[../]
[./y2]
type = PiecewiseLinear
x = '0 1 2 3'
y = '0 0 .5 1'
[../]
[]
[BCs]
[./fixx1]
type = DirichletBC
variable = disp_x
preset = false
boundary = 1
value = 0.0
[../]
[./fixx2]
type = FunctionDirichletBC
variable = disp_x
preset = false
boundary = 2
function = x2
[../]
[./fixx3]
type = DirichletBC
variable = disp_x
preset = false
boundary = 3
value = 0.0
[../]
[./fixy1]
type = DirichletBC
variable = disp_y
preset = false
boundary = 1
value = 0
[../]
[./fixy2]
type = FunctionDirichletBC
variable = disp_y
preset = false
boundary = 2
function = y2
[../]
[./fixy3]
type = DirichletBC
variable = disp_y
preset = false
boundary = 3
value = 0
[../]
[./fixz1]
type = DirichletBC
variable = disp_z
preset = false
boundary = 1
value = 0
[../]
[./fixz2]
type = DirichletBC
variable = disp_z
preset = false
boundary = 2
value = 0
[../]
[./fixz3]
type = DirichletBC
variable = disp_z
preset = false
boundary = 3
value = 0
[../]
[]
[AuxKernels]
[./axial_stress]
type = MaterialRealAux
block = '1 2'
property = axial_stress
variable = axial_stress
[../]
[./e_over_l]
type = MaterialRealAux
block = '1 2'
property = e_over_l
variable = e_over_l
[../]
[./area]
type = ConstantAux
block = '1 2'
variable = area
value = 1.0
execute_on = 'initial timestep_begin'
[../]
[]
[Executioner]
type = Transient
solve_type = PJFNK
petsc_options_iname = '-pc_type -ksp_gmres_restart'
petsc_options_value = 'jacobi 101'
line_search = 'none'
nl_max_its = 15
nl_rel_tol = 1e-6
nl_abs_tol = 1e-10
dt = 1
num_steps = 3
end_time = 3
[]
[Modules/TensorMechanics/LineElementMaster]
[./block]
truss = true
add_variables = true
displacements = 'disp_x disp_y disp_z'
area = area
block = '1 2'
save_in = 'react_x react_y react_z'
[../]
[]
[Materials]
[./linelast]
type = LinearElasticTruss
block = '1 2'
youngs_modulus = 1e6
displacements = 'disp_x disp_y disp_z'
[../]
[]
[Outputs]
file_base = 'truss_3d_out'
exodus = true
[]
modules/combined/test/tests/sliding_block/sliding/dirac/frictionless_penalty.i
# This is a benchmark test that checks Dirac based frictionless
# contact using the penalty method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
order = FIRST
family = LAGRANGE
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./stiffStuff]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stiffStuff_stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[] # Materials
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-7
l_max_its = 100
nl_max_its = 1000
dt = 0.05
end_time = 10
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
formulation = penalty
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/glued_kinematic.i
[Mesh]
file = blocks_2d_nogap.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.01
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e7
poissons_ratio = 0.3
[../]
[./right]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.10
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
system = Constraint
master = 2
slave = 3
model = glued
penalty = 1e+6
[../]
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_1/plane1_template2.i
[GlobalParams]
volumetric_locking_correction = true
displacements = 'disp_x disp_y'
[]
[Mesh]
file = plane1_mesh.e
[]
[Problem]
type = AugmentedLagrangianContactProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
maximum_lagrangian_update_iterations = 200
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Kernels]
[./TensorMechanics]
use_displaced_mesh = true
save_in = 'saved_x saved_y'
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xx
index_i = 0
index_j = 0
execute_on = timestep_end
[../]
[./stress_yy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_yy
index_i = 1
index_j = 1
execute_on = timestep_end
[../]
[./stress_xy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xy
index_i = 0
index_j = 1
execute_on = timestep_end
[../]
[./stress_zz]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_zz
index_i = 2
index_j = 2
execute_on = timestep_end
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x2]
type = NodalVariableValue
nodeid = 1
variable = disp_x
[../]
[./disp_x7]
type = NodalVariableValue
nodeid = 6
variable = disp_x
[../]
[./disp_y2]
type = NodalVariableValue
nodeid = 1
variable = disp_y
[../]
[./disp_y7]
type = NodalVariableValue
nodeid = 6
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./bot_strain]
type = ComputeIncrementalSmallStrain
block = '1'
[../]
[./bot_stress]
type = ComputeFiniteStrainElasticStress
block = '1'
[../]
[./top_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./top_strain]
type = ComputeIncrementalSmallStrain
block = '2'
[../]
[./top_stress]
type = ComputeFiniteStrainElasticStress
block = '2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-10
nl_rel_tol = 1e-9
l_max_its = 50
nl_max_its = 100
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x2 disp_y2 disp_x7 disp_y7 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
al_penetration_tolerance = 1e-8
[../]
[]
test/tests/postprocessors/difference_pps/difference_pps.i
[Mesh]
type = GeneratedMesh
dim = 2
xmin = 0
xmax = 1
ymin = 0
ymax = 1
nx = 2
ny = 2
[]
[AuxVariables]
[./v]
[../]
[]
[Variables]
[./u]
[../]
[]
[ICs]
[./u_ic]
type = ConstantIC
variable = u
value = 2
[../]
[]
[AuxKernels]
[./one]
type = ConstantAux
variable = v
value = 1
execute_on = 'initial timestep_end'
[../]
[]
[Kernels]
[./diff]
type = Diffusion
variable = u
[../]
[]
[BCs]
[./left]
type = DirichletBC
variable = u
boundary = left
value = 0
[../]
[./right]
type = DirichletBC
variable = u
boundary = right
value = 1
[../]
[]
[Postprocessors]
[./u_avg]
type = ElementAverageValue
variable = u
execute_on = 'initial timestep_end'
[../]
[./v_avg]
type = ElementAverageValue
variable = v
execute_on = 'initial timestep_end'
[../]
[./diff]
type = DifferencePostprocessor
value1 = v_avg
value2 = u_avg
execute_on = 'initial timestep_end'
[../]
[]
[Executioner]
type = Steady
[]
[Outputs]
exodus = true
[]
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/glued_penalty_sm.i
[Mesh]
file = blocks_2d_nogap.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.01
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e7
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.10
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
system = Constraint
master = 2
slave = 3
model = glued
formulation = penalty
penalty = 1e+7
[../]
[]
modules/combined/test/tests/sliding_block/in_and_out/constraint/frictional_04_penalty.i
# This is a benchmark test that checks constraint based frictional
# contact using the penalty method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2 and a friction coefficient
# of 0.4 is used. The gold file is run on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./left_stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -sub_pc_type -pc_asm_overlap -ksp_gmres_restart'
petsc_options_value = 'asm lu 20 101'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-3
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
# csv = true
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = coulomb
penalty = 1e+7
friction_coefficient = 0.4
formulation = penalty
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
modules/combined/test/tests/sliding_block/in_and_out/constraint/sm/frictional_04_penalty_sm.i
# This is a benchmark test that checks constraint based frictional
# contact using the penalty method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2 and a friction coefficient
# of 0.4 is used. The gold file is run on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
displacements = 'disp_x disp_y'
volumetric_locking_correction = false
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -sub_pc_type -pc_asm_overlap -ksp_gmres_restart'
petsc_options_value = 'asm lu 20 101'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-3
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
# csv = true
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = coulomb
penalty = 1e+7
friction_coefficient = 0.4
formulation = penalty
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/frictionless_penalty_dirac.i
# This is a dirac (contact formulation) version of frictionless_penalty.i
[Mesh]
file = blocks_2d.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e7
poissons_ratio = 0.3
[../]
[./right]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.10
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
master = 2
slave = 3
model = frictionless
formulation = penalty
penalty = 1e+7
system = diracKernel
[../]
[]
test/tests/misc/check_error/subdomain_restricted_auxkernel_mismatch.i
[Mesh]
file = rectangle.e
[]
[Variables]
active = 'u'
[./u]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./foo]
order = FIRST
family = LAGRANGE
block = 1
[../]
[]
[Kernels]
active = 'diff body_force'
[./diff]
type = Diffusion
variable = u
[../]
[./body_force]
type = BodyForce
variable = u
block = 1
value = 10
[../]
[]
[AuxKernels]
[./foo]
type = ConstantAux
variable = foo
value = 1
block = 2
[../]
[]
[BCs]
active = 'right'
[./left]
type = DirichletBC
variable = u
boundary = 1
value = 1
[../]
[./right]
type = DirichletBC
variable = u
boundary = 2
value = 1
[../]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
# petsc_options = '-snes_mf_operator'
# petsc_options_iname = '-pc_type -pc_hypre_type'
# petsc_options_value = 'hypre boomeramg'
[]
[Outputs]
file_base = out
exodus = true
[]
test/tests/parser/active_inactive/active_inactive.i
#############################################################
# This input file demonstrates the use of the active/inactive
# block level parameters that can be used to toggle individual
# blocks on/off for every block in a MOOSE-based input file.
#
# "active" and "inactive" cannot be used within the same block
##############################################################
[Mesh]
type = GeneratedMesh
dim = 2
nx = 2
ny = 2
[]
[Variables]
active = 'u'
[./u]
[../]
[]
[AuxVariables]
inactive = 'aux1 aux3'
# The parameters in the inactive sections can be invalid because
# they are never parsed.
[./aux1]
type = DoesntExist
flintstones = 'fred wilma'
[../]
[./aux2]
[../]
[./aux3]
order = TENZILLION
[../]
[./aux4]
[../]
[]
[AuxKernels]
active = 'aux2 aux4'
# You can use active or inactive depending on whatever is easier
[./aux1]
type = ConstantAux
value = 1
variable = aux1
[../]
[./aux2]
type = ConstantAux
value = 2
variable = aux2
[../]
[./aux3]
type = ConstantAux
value = 3
variable = aux3
[../]
[./aux4]
type = ConstantAux
value = 4
variable = aux4
[../]
[]
[Kernels]
inactive = ''
[./diff]
type = Diffusion
variable = u
[../]
[]
[BCs]
inactive = ''
[./left]
type = DirichletBC
variable = u
boundary = 1
value = 0
[../]
[./right]
type = DirichletBC
variable = u
boundary = 2
value = 1
[../]
[]
[Executioner]
type = Steady
inactive = Adaptivity
[./Adaptivity]
[../]
[]
# No output so we can override several parameters and test them concurrently
modules/combined/test/tests/sliding_block/sliding/dirac/frictional_04_penalty.i
# This is a benchmark test that checks Dirac based frictional
# contact using the penalty method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# A friction coefficient of 0.4 is used. The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./stiffStuff]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stiffStuff_stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[] # Materials
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-7
l_max_its = 200
nl_max_its = 1000
dt = 0.05
end_time = 10
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
formulation = penalty
friction_coefficient = 0.4
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
modules/combined/test/tests/sliding_block/sliding/dirac/frictionless_kinematic.i
# This is a benchmark test that checks Dirac based frictionless
# contact using the kinematic method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./stiffStuff]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stiffStuff_stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[] # Materials
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_hypre_type -pc_hypre_boomeramg_max_iter -ksp_gmres_restart'
petsc_options_value = 'hypre boomeramg 4 101'
line_search = 'none'
nl_abs_tol = 1e-7
l_max_its = 200
nl_max_its = 1000
dt = 0.05
end_time = 10
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+6
formulation = kinematic
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
test/tests/outputs/displaced/non_displaced_fallback.i
[Mesh]
type = GeneratedMesh
dim = 1
nx = 2
[]
[AuxVariables]
[./a]
[../]
[]
[AuxKernels]
[./a_ak]
type = ConstantAux
variable = a
value = 1.
execute_on = initial
[../]
[]
[Problem]
solve = false
[]
[Executioner]
type = Steady
[]
[Outputs]
[./exodus]
type = Exodus
use_displaced = true
[../]
[]
test/tests/outputs/variables/output_vars_nonexistent.i
[Mesh]
type = GeneratedMesh
dim = 2
xmin = 0
xmax = 1
ymin = 0
ymax = 1
nx = 10
ny = 10
elem_type = QUAD9
[]
[Variables]
[./u]
order = FIRST
family = LAGRANGE
[../]
[./v]
order = SECOND
family = LAGRANGE
[../]
# ODE variables
[./x]
family = SCALAR
order = FIRST
initial_condition = 1
[../]
[./y]
family = SCALAR
order = FIRST
initial_condition = 2
[../]
[]
[AuxVariables]
[./elemental]
order = CONSTANT
family = MONOMIAL
[../]
[./elemental_restricted]
order = CONSTANT
family = MONOMIAL
[../]
[./nodal]
order = FIRST
family = LAGRANGE
[../]
[./nodal_restricted]
order = FIRST
family = LAGRANGE
[../]
[]
[Kernels]
[./td]
type = TimeDerivative
variable = u
[../]
[./diff_u]
type = Diffusion
variable = u
[../]
[./conv_u]
type = CoupledForce
variable = u
v = v
[../]
[./diff_v]
type = Diffusion
variable = v
[../]
[]
[AuxKernels]
[./elemental]
type = ConstantAux
variable = elemental
value = 1
[../]
[./elemental_restricted]
type = ConstantAux
variable = elemental_restricted
value = 1
[../]
[./nodal]
type = ConstantAux
variable = elemental
value = 2
[../]
[./nodal_restricted]
type = ConstantAux
variable = elemental_restricted
value = 2
[../]
[]
[ScalarKernels]
[./td1]
type = ODETimeDerivative
variable = x
[../]
[./ode1]
type = ImplicitODEx
variable = x
y = y
[../]
[./td2]
type = ODETimeDerivative
variable = y
[../]
[./ode2]
type = ImplicitODEy
variable = y
x = x
[../]
[]
[BCs]
active = 'left_u right_u left_v'
[./left_u]
type = DirichletBC
variable = u
boundary = 1
value = 1
[../]
[./right_u]
type = DirichletBC
variable = u
boundary = 3
value = 9
[../]
[./left_v]
type = DirichletBC
variable = v
boundary = 1
value = 5
[../]
[./right_v]
type = DirichletBC
variable = v
boundary = 2
value = 2
[../]
[]
[Postprocessors]
[./x]
type = ScalarVariable
variable = x
execute_on = timestep_end
[../]
[./y]
type = ScalarVariable
variable = y
execute_on = timestep_end
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
dt = 0.01
num_steps = 10
[]
[Outputs]
file_base = out_nonexistent
exodus = true
show = 'u elemental nodal x foo1 foo2'
[]
test/tests/ics/dependency/monomial.i
[GlobalParams]
family = MONOMIAL
order = FIRST
[]
[Mesh]
type = GeneratedMesh
dim = 2
xmin = 0
xmax = 1
ymin = 0
ymax = 1
nx = 2
ny = 2
[]
[AuxVariables]
[./a]
[../]
[./b]
[../]
[]
[Variables]
[./u]
[../]
[./v]
[../]
[]
[ICs]
[./u_ic]
type = ConstantIC
variable = u
value = -1
[../]
[./v_ic]
type = MTICSum
variable = v
var1 = u
var2 = a
[../]
[./a_ic]
type = ConstantIC
variable = a
value = 10
[../]
[./b_ic]
type = MTICMult
variable = b
var1 = v
factor = 2
[../]
[]
[AuxKernels]
[./a_ak]
type = ConstantAux
variable = a
value = 256
[../]
[./b_ak]
type = ConstantAux
variable = b
value = 42
[../]
[]
[Kernels]
[./diff_u]
type = Diffusion
variable = u
[../]
[./diff_v]
type = Diffusion
variable = v
[../]
[]
[BCs]
[./left_u]
type = PenaltyDirichletBC
variable = u
boundary = left
value = 0
penalty = 1000
[../]
[./right_u]
type = PenaltyDirichletBC
variable = u
boundary = right
value = 1
penalty = 1000
[../]
[./left_v]
type = PenaltyDirichletBC
variable = v
boundary = left
value = 2
penalty = 1000
[../]
[./right_v]
type = PenaltyDirichletBC
variable = v
boundary = right
value = 1
penalty = 1000
[../]
[]
[Problem]
solve = false
[]
[Executioner]
type = Steady
solve_type = 'NEWTON'
nl_rel_tol = 1e-10
[]
[Outputs]
exodus = true
[]
modules/combined/test/tests/sliding_block/in_and_out/constraint/sm/frictionless_penalty_sm.i
# This is a benchmark test that checks constraint based frictionless
# contact using the penalty method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2. The gold file is run
# on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
displacements = 'disp_x disp_y'
volumetric_locking_correction = false
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Preconditioning]
[./smp]
type = SMP
full = true
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
formulation = penalty
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
modules/combined/test/tests/sliding_block/sliding/constraint/sm/frictional_02_aug_sm.i
# This is a benchmark test that checks constraint based frictional
# contact using the augmented lagrangian method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# A friction coefficient of 0.2 is used. The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./contact_traction]
[../]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./tang_force_x]
[../]
[./tang_force_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
save_in_disp_x = saved_x
save_in_disp_y = saved_y
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
l_max_its = 20
nl_max_its = 200
dt = 0.1
end_time = 15
num_steps = 200
l_tol = 1e-6
nl_rel_tol = 1e-8
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Problem]
type = AugmentedLagrangianContactProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
maximum_lagrangian_update_iterations = 100
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = coulomb
penalty = 1e+7
friction_coefficient = 0.2
formulation = augmented_lagrange
system = constraint
normalize_penalty = true
al_penetration_tolerance = 1e-6
al_incremental_slip_tolerance = 1.0e-2
al_frictional_force_tolerance = 1e-3
[../]
[]
[Preconditioning]
[./SMP]
type = SMP
full = true
[../]
[]
test/tests/geomsearch/nearest_node_locator/adapt.i
[Mesh]
file = 2dcontact_collide.e
[]
[Variables]
[./u]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./distance]
[../]
[]
[Kernels]
[./diff]
type = Diffusion
variable = u
[../]
[./conv]
type = Convection
variable = u
velocity = '1 0 0'
[../]
[]
[AuxKernels]
[./zero]
type = ConstantAux
variable = distance
[../]
[./distance]
type = NearestNodeDistanceAux
variable = distance
boundary = 2
paired_boundary = 3
[../]
[]
[BCs]
[./block1_left]
type = DirichletBC
variable = u
boundary = 1
value = 0
[../]
[./block1_right]
type = DirichletBC
variable = u
boundary = 2
value = 1
[../]
[./block2_left]
type = DirichletBC
variable = u
boundary = 3
value = 0
[../]
[./block2_right]
type = DirichletBC
variable = u
boundary = 4
value = 1
[../]
[]
[Executioner]
type = Transient
num_steps = 3
dt = 1
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_hypre_type'
petsc_options_value = 'hypre boomeramg'
[]
[Adaptivity]
marker = uniform
[./Markers]
[./uniform]
type = UniformMarker
mark = refine
[../]
[../]
[]
[Outputs]
exodus = true
[]
modules/tensor_mechanics/test/tests/truss/truss_3d.i
[Mesh]
type = FileMesh
file = truss_3d.e
displacements = 'disp_x disp_y disp_z'
[]
[Variables]
[./disp_x]
order = FIRST
family = LAGRANGE
[../]
[./disp_y]
order = FIRST
family = LAGRANGE
[../]
[./disp_z]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./axial_stress]
order = CONSTANT
family = MONOMIAL
[../]
[./e_over_l]
order = CONSTANT
family = MONOMIAL
[../]
[./area]
order = CONSTANT
family = MONOMIAL
# initial_condition = 1.0
[../]
[./react_x]
order = FIRST
family = LAGRANGE
[../]
[./react_y]
order = FIRST
family = LAGRANGE
[../]
[./react_z]
order = FIRST
family = LAGRANGE
[../]
[]
[Functions]
[./x2]
type = PiecewiseLinear
x = '0 1 2 3'
y = '0 .5 1 1'
[../]
[./y2]
type = PiecewiseLinear
x = '0 1 2 3'
y = '0 0 .5 1'
[../]
[]
[BCs]
[./fixx1]
type = DirichletBC
variable = disp_x
preset = false
boundary = 1
value = 0.0
[../]
[./fixx2]
type = FunctionDirichletBC
variable = disp_x
preset = false
boundary = 2
function = x2
[../]
[./fixx3]
type = DirichletBC
variable = disp_x
preset = false
boundary = 3
value = 0.0
[../]
[./fixy1]
type = DirichletBC
variable = disp_y
preset = false
boundary = 1
value = 0
[../]
[./fixy2]
type = FunctionDirichletBC
variable = disp_y
preset = false
boundary = 2
function = y2
[../]
[./fixy3]
type = DirichletBC
variable = disp_y
preset = false
boundary = 3
value = 0
[../]
[./fixz1]
type = DirichletBC
variable = disp_z
preset = false
boundary = 1
value = 0
[../]
[./fixz2]
type = DirichletBC
variable = disp_z
preset = false
boundary = 2
value = 0
[../]
[./fixz3]
type = DirichletBC
variable = disp_z
preset = false
boundary = 3
value = 0
[../]
[]
[AuxKernels]
[./axial_stress]
type = MaterialRealAux
block = '1 2'
property = axial_stress
variable = axial_stress
[../]
[./e_over_l]
type = MaterialRealAux
block = '1 2'
property = e_over_l
variable = e_over_l
[../]
[./area]
type = ConstantAux
block = '1 2'
variable = area
value = 1.0
execute_on = 'initial timestep_begin'
[../]
[]
[Executioner]
type = Transient
solve_type = PJFNK
petsc_options_iname = '-pc_type -ksp_gmres_restart'
petsc_options_value = 'jacobi 101'
line_search = 'none'
nl_max_its = 15
nl_rel_tol = 1e-6
nl_abs_tol = 1e-10
dt = 1
num_steps = 3
end_time = 3
[]
[Kernels]
[./solid_x]
type = StressDivergenceTensorsTruss
block = '1 2'
displacements = 'disp_x disp_y disp_z'
component = 0
variable = disp_x
area = area
save_in = react_x
[../]
[./solid_y]
type = StressDivergenceTensorsTruss
block = '1 2'
displacements = 'disp_x disp_y disp_z'
component = 1
variable = disp_y
area = area
save_in = react_y
[../]
[./solid_z]
type = StressDivergenceTensorsTruss
block = '1 2'
displacements = 'disp_x disp_y disp_z'
component = 2
variable = disp_z
area = area
save_in = react_z
[../]
[]
[Materials]
[./linelast]
type = LinearElasticTruss
block = '1 2'
youngs_modulus = 1e6
displacements = 'disp_x disp_y disp_z'
[../]
[]
[Outputs]
exodus = true
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_4/plane4_template1_sm.i
[Mesh]
file = plane4_mesh.e
[]
[GlobalParams]
order = SECOND
displacements = 'disp_x disp_y'
[]
[Problem]
type = ReferenceResidualProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[./tang_force_x]
[../]
[./tang_force_y]
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
save_in_disp_y = saved_y
save_in_disp_x = saved_x
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = MaterialTensorAux
tensor = stress
variable = stress_xx
index = 0
[../]
[./stress_yy]
type = MaterialTensorAux
tensor = stress
variable = stress_yy
index = 1
[../]
[./stress_xy]
type = MaterialTensorAux
tensor = stress
variable = stress_xy
index = 3
[../]
[./stress_zz]
type = MaterialTensorAux
tensor = stress
variable = stress_zz
index = 2
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x9]
type = NodalVariableValue
nodeid = 8
variable = disp_x
[../]
[./disp_x16]
type = NodalVariableValue
nodeid = 15
variable = disp_x
[../]
[./disp_y9]
type = NodalVariableValue
nodeid = 8
variable = disp_y
[../]
[./disp_y16]
type = NodalVariableValue
nodeid = 15
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot]
type = LinearIsotropicMaterial
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./top]
type = LinearIsotropicMaterial
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-10
nl_rel_tol = 1e-7
l_max_its = 100
nl_max_its = 200
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x9 disp_y9 disp_x16 disp_y16 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
[../]
[]
modules/combined/test/tests/sliding_block/in_and_out/constraint/frictional_02_penalty.i
# This is a benchmark test that checks constraint based frictional
# contact using the penalty method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2 and a friction coefficient
# of 0.2 is used. The gold file is run on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./left_stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -sub_pc_type -pc_asm_overlap -ksp_gmres_restart'
petsc_options_value = 'asm lu 20 101'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-3
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = coulomb
penalty = 1e+7
friction_coefficient = 0.2
formulation = penalty
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
modules/combined/test/tests/sliding_block/sliding/constraint/sm/frictionless_kinematic_sm.i
# This is a benchmark test that checks constraint based frictionless
# contact using the kinematic method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -sub_pc_type -pc_asm_overlap -ksp_gmres_restart'
petsc_options_value = 'asm lu 20 101'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+6
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
test/tests/parser/active_inactive/top_level.i
#############################################################
# This input file demonstrates the use of inactive at the
# top level.
##############################################################
inactive = 'Executioner' # This will produce an error about missing Executioner
[Mesh]
type = GeneratedMesh
dim = 2
nx = 2
ny = 2
[]
[Variables]
active = 'u'
[./u]
[../]
[]
[AuxVariables]
inactive = 'aux1 aux3'
# The parameters in the inactive sections can be invalid because
# they are never parsed.
[./aux1]
type = DoesntExist
flintstones = 'fred wilma'
[../]
[./aux2]
[../]
[./aux3]
order = TENZILLION
[../]
[./aux4]
[../]
[]
[AuxKernels]
active = 'aux2 aux4'
# You can use active or inactive depending on whatever is easier
[./aux1]
type = ConstantAux
value = 1
variable = aux1
[../]
[./aux2]
type = ConstantAux
value = 2
variable = aux2
[../]
[./aux3]
type = ConstantAux
value = 3
variable = aux3
[../]
[./aux4]
type = ConstantAux
value = 4
variable = aux4
[../]
[]
[Kernels]
inactive = ''
[./diff]
type = Diffusion
variable = u
[../]
[]
[BCs]
inactive = ''
[./left]
type = DirichletBC
variable = u
boundary = 1
value = 0
[../]
[./right]
type = DirichletBC
variable = u
boundary = 2
value = 1
[../]
[]
[Executioner]
type = Steady
inactive = Adaptivity
[./Adaptivity]
[../]
[]
# No output so we can override several parameters and test them concurrently
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/glued_penalty_dirac.i
# This is a dirac (contact formulation) version of glued_penalty.i
[Mesh]
file = blocks_2d_nogap.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.01
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e7
poissons_ratio = 0.3
[../]
[./right]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.10
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
master = 2
slave = 3
model = glued
formulation = penalty
penalty = 1e+7
system = diracKernel
[../]
[]
modules/combined/test/tests/sliding_block/sliding/constraint/sm/frictional_04_penalty_sm.i
# This is a benchmark test that checks constraint based frictional
# contact using the penalty method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# A friction coefficient of 0.4 is used. The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = coulomb
penalty = 1e+7
friction_coefficient = 0.4
formulation = penalty
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_4/plane4_template1.i
[GlobalParams]
order = SECOND
displacements = 'disp_x disp_y'
[]
[Mesh]
file = plane4_mesh.e
[]
[Problem]
type = ReferenceResidualProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[./tang_force_x]
[../]
[./tang_force_y]
[../]
[]
[Kernels]
[./TensorMechanics]
use_displaced_mesh = true
save_in = 'saved_x saved_y'
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xx
index_i = 0
index_j = 0
execute_on = timestep_end
[../]
[./stress_yy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_yy
index_i = 1
index_j = 1
execute_on = timestep_end
[../]
[./stress_xy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xy
index_i = 0
index_j = 1
execute_on = timestep_end
[../]
[./stress_zz]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_zz
index_i = 2
index_j = 2
execute_on = timestep_end
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x9]
type = NodalVariableValue
nodeid = 8
variable = disp_x
[../]
[./disp_x16]
type = NodalVariableValue
nodeid = 15
variable = disp_x
[../]
[./disp_y9]
type = NodalVariableValue
nodeid = 8
variable = disp_y
[../]
[./disp_y16]
type = NodalVariableValue
nodeid = 15
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./bot_strain]
type = ComputeIncrementalSmallStrain
block = '1'
[../]
[./bot_stress]
type = ComputeFiniteStrainElasticStress
block = '1'
[../]
[./top_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./top_strain]
type = ComputeIncrementalSmallStrain
block = '2'
[../]
[./top_stress]
type = ComputeFiniteStrainElasticStress
block = '2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-10
nl_rel_tol = 1e-7
l_max_its = 100
nl_max_its = 200
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x9 disp_y9 disp_x16 disp_y16 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
[../]
[]
modules/tensor_mechanics/test/tests/truss/truss_2d_action.i
#
# Truss in two dimensional space
#
# The truss is made of five equilateral triangles supported at each end.
# The truss starts at (0,0). At (1,0), there is a point load of 25.
# The reactions are therefore
# Ryleft = 2/3 * 25 = 16.7
# Ryright = 1/3 * 25 = 8.33
# The area of each member is 0.8.
# Statics gives the stress in each member. For example, for element 6 (from
# (0,0) to (1/2,sqrt(3)/2)), the force is
# f = 2/3 * 25 * 2/sqrt(3) = 100/3/sqrt(3) (compressive)
# and the stress is
# s = -100/3/sqrt(3)/0.8 = -24.06
#
[Mesh]
type = FileMesh
file = truss_2d.e
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./axial_stress]
order = CONSTANT
family = MONOMIAL
[../]
[./e_over_l]
order = CONSTANT
family = MONOMIAL
[../]
[./area]
order = CONSTANT
family = MONOMIAL
[../]
[./react_x]
order = FIRST
family = LAGRANGE
[../]
[./react_y]
order = FIRST
family = LAGRANGE
[../]
[./react_z]
order = FIRST
family = LAGRANGE
[../]
[]
[Functions]
[./x2]
type = PiecewiseLinear
x = '0 1 2 3'
y = '0 .5 1 1'
[../]
[./y2]
type = PiecewiseLinear
x = '0 1 2 3'
y = '0 0 .5 1'
[../]
[]
[BCs]
[./fixx1]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0
[../]
[./fixy1]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0
[../]
[./fixy4]
type = DirichletBC
variable = disp_y
boundary = 4
value = 0
[../]
[]
[DiracKernels]
[./pull]
type = ConstantPointSource
value = -25
point = '1 0 0'
variable = disp_y
[../]
[]
[AuxKernels]
[./axial_stress]
type = MaterialRealAux
block = 1
property = axial_stress
variable = axial_stress
[../]
[./e_over_l]
type = MaterialRealAux
block = 1
property = e_over_l
variable = e_over_l
[../]
[./area]
type = ConstantAux
block = 1
variable = area
value = 0.8
execute_on = 'initial timestep_begin'
[../]
[]
[Preconditioning]
[./SMP]
type = SMP
full = true
[../]
[]
[Executioner]
type = Transient
solve_type = PJFNK
petsc_options_iname = '-pc_type -ksp_gmres_restart'
petsc_options_value = 'jacobi 101'
nl_max_its = 15
nl_rel_tol = 1e-8
nl_abs_tol = 1e-10
dt = 1
num_steps = 1
end_time = 1
[]
[Modules/TensorMechanics/LineElementMaster]
[./block]
truss = true
add_variables = true
displacements = 'disp_x disp_y'
# area = area # commented out for error check
block = 1
save_in = 'react_x react_y'
[../]
[]
[Materials]
[./linelast]
type = LinearElasticTruss
block = 1
youngs_modulus = 1e6
displacements = 'disp_x disp_y'
[../]
[]
[Outputs]
file_base = 'truss_2d_out'
exodus = true
[]
modules/combined/test/tests/sliding_block/sliding/dirac/sm/frictionless_penalty_sm.i
# This is a benchmark test that checks Dirac based frictionless
# contact using the penalty method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
order = FIRST
family = LAGRANGE
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-7
l_max_its = 100
nl_max_its = 1000
dt = 0.05
end_time = 10
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
formulation = penalty
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/frictionless_kinematic_dirac_sm.i
# This is a dirac (contact formulation) version of frictionless_kinematic.i
[Mesh]
file = blocks_2d.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e7
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.1
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
master = 2
slave = 3
model = frictionless
penalty = 1e+6
system = dirackernel
[../]
[]
modules/combined/test/tests/gap_heat_transfer_mortar/ref-displaced.i
[Mesh]
file = 3blk.e
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./disp_x]
block = 1
[../]
[./disp_y]
block = 1
[../]
[]
[AuxKernels]
[./disp_x_kernel]
type = ConstantAux
variable = disp_x
value = 0.1
[../]
[./disp_y_kernel]
type = ConstantAux
variable = disp_y
value = 0
[../]
[]
[Variables]
[./temp]
order = FIRST
family = LAGRANGE
block = '1 2 3'
[../]
[]
[Materials]
[./left]
type = HeatConductionMaterial
block = 1
thermal_conductivity = 1000
specific_heat = 1
[../]
[./right]
type = HeatConductionMaterial
block = 2
thermal_conductivity = 500
specific_heat = 1
[../]
[./middle]
type = HeatConductionMaterial
block = 3
thermal_conductivity = 100
specific_heat = 1
[../]
[]
[Kernels]
[./hc]
type = HeatConduction
variable = temp
use_displaced_mesh = true
[../]
[]
[BCs]
[./left]
type = DirichletBC
variable = temp
boundary = 'left'
value = 1
[../]
[./right]
type = DirichletBC
variable = temp
boundary = 'right'
value = 0
[../]
[]
[Preconditioning]
[./smp]
type = SMP
full = true
[../]
[]
[Executioner]
type = Steady
solve_type = 'NEWTON'
nl_rel_tol = 1e-11
l_tol = 1e-11
[]
[Outputs]
exodus = true
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_3/plane3_template2.i
[GlobalParams]
order = SECOND
displacements = 'disp_x disp_y'
[]
[Mesh]
file = plane3_mesh.e
[]
[Problem]
type = AugmentedLagrangianContactProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
maximum_lagrangian_update_iterations = 200
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[./tang_force_x]
[../]
[./tang_force_y]
[../]
[]
[Kernels]
[./TensorMechanics]
use_displaced_mesh = true
save_in = 'saved_x saved_y'
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xx
index_i = 0
index_j = 0
execute_on = timestep_end
[../]
[./stress_yy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_yy
index_i = 1
index_j = 1
execute_on = timestep_end
[../]
[./stress_xy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xy
index_i = 0
index_j = 1
execute_on = timestep_end
[../]
[./stress_zz]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_zz
index_i = 2
index_j = 2
execute_on = timestep_end
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x2]
type = NodalVariableValue
nodeid = 1
variable = disp_x
[../]
[./disp_x11]
type = NodalVariableValue
nodeid = 10
variable = disp_x
[../]
[./disp_y2]
type = NodalVariableValue
nodeid = 1
variable = disp_y
[../]
[./disp_y11]
type = NodalVariableValue
nodeid = 10
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./bot_strain]
type = ComputeIncrementalSmallStrain
block = '1'
[../]
[./bot_stress]
type = ComputeFiniteStrainElasticStress
block = '1'
[../]
[./top_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./top_strain]
type = ComputeIncrementalSmallStrain
block = '2'
[../]
[./top_stress]
type = ComputeFiniteStrainElasticStress
block = '2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-10
nl_rel_tol = 1e-8
l_max_its = 100
nl_max_its = 200
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x2 disp_y2 disp_x11 disp_y11 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
al_penetration_tolerance = 1e-8
[../]
[]
modules/combined/test/tests/sliding_block/sliding/dirac/frictional_02_penalty.i
# This is a benchmark test that checks Dirac based frictional
# contact using the penalty method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# A friction coefficient of 0.2 is used. The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./stiffStuff]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stiffStuff_stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[] # Materials
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
# petsc_options_iname = '-pc_type -pc_hypre_type -pc_hypre_boomeramg_max_iter -ksp_gmres_restart'
# petsc_options_value = 'hypre boomeramg 4 101'
nl_abs_tol = 1e-7
l_max_its = 200
nl_max_its = 1000
dt = 0.05
end_time = 10
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = coulomb
penalty = 1e+7
formulation = penalty
friction_coefficient = 0.2
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
modules/combined/test/tests/sliding_block/sliding/constraint/sm/frictionless_aug_sm.i
# This is a benchmark test that checks constraint based frictionless
# contact using the augmented lagrangian method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./saved_x]
[../]
[./saved_y]
[../]
[./contact_traction]
[../]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
save_in_disp_x = saved_x
save_in_disp_y = saved_y
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
l_max_its = 100
nl_max_its = 100
dt = 0.1
end_time = 15
num_steps = 200
l_tol = 1e-6
nl_rel_tol = 1e-7
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Problem]
type = AugmentedLagrangianContactProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
maximum_lagrangian_update_iterations = 25
[]
[Preconditioning]
[./SMP]
type = SMP
full = true
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
normalize_penalty = true
formulation = augmented_lagrange
tangential_tolerance = 1e-3
system = constraint
normal_smoothing_distance = 0.1
al_penetration_tolerance = 1e-9
[../]
[]
modules/combined/test/tests/sliding_block/in_and_out/dirac/frictionless_penalty.i
# This is a benchmark test that checks Dirac based frictionless
# contact using the penalty method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2. The gold file is run
# on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./constitutive]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-7
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
file_base = frictionless_penalty_out
interval = 10
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
formulation = penalty
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
modules/combined/test/tests/sliding_block/in_and_out/dirac/frictional_04_penalty.i
# This is a benchmark test that checks Dirac based frictional
# contact using the penalty method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2 and a friction coefficient
# of 0. is used. The gold file is run on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./constitutive]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-7
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
file_base = frictional_04_penalty_out
interval = 10
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
formulation = penalty
friction_coefficient = 0.4
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_3/plane3_template1_sm.i
[Mesh]
file = plane3_mesh.e
[]
[GlobalParams]
order = SECOND
displacements = 'disp_x disp_y'
[]
[Problem]
type = ReferenceResidualProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[./tang_force_x]
[../]
[./tang_force_y]
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
save_in_disp_y = saved_y
save_in_disp_x = saved_x
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = MaterialTensorAux
tensor = stress
variable = stress_xx
index = 0
[../]
[./stress_yy]
type = MaterialTensorAux
tensor = stress
variable = stress_yy
index = 1
[../]
[./stress_xy]
type = MaterialTensorAux
tensor = stress
variable = stress_xy
index = 3
[../]
[./stress_zz]
type = MaterialTensorAux
tensor = stress
variable = stress_zz
index = 2
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x2]
type = NodalVariableValue
nodeid = 1
variable = disp_x
[../]
[./disp_x11]
type = NodalVariableValue
nodeid = 10
variable = disp_x
[../]
[./disp_y2]
type = NodalVariableValue
nodeid = 1
variable = disp_y
[../]
[./disp_y11]
type = NodalVariableValue
nodeid = 10
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot]
type = LinearIsotropicMaterial
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./top]
type = LinearIsotropicMaterial
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
line_search = 'none'
nl_abs_tol = 1e-10
nl_rel_tol = 1e-8
l_max_its = 100
nl_max_its = 200
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x2 disp_y2 disp_x11 disp_y11 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
[../]
[]
test/tests/auxkernels/vector_magnitude/vector_magnitude.i
[Mesh]
type = GeneratedMesh
dim = 3
xmin = -1
xmax = 1
ymin = -1
ymax = 1
zmin = -1
zmax = 1
nx = 2
ny = 2
nz = 2
[../]
[Variables]
[./u]
[../]
[]
[Kernels]
[./diff]
type = Diffusion
variable = u
[../]
[]
[BCs]
[./left]
type = DirichletBC
variable = u
boundary = left
value = 0
[../]
[./right]
type = DirichletBC
variable = u
boundary = right
value = 1
[../]
[]
[AuxVariables]
[./vector_x]
initial_condition = 2
[../]
[./vector_y]
initial_condition = 1
[../]
[./vector_z]
initial_condition = 2
[../]
[./magnitude]
[../]
[]
[AuxKernels]
[./vx]
type = ConstantAux
variable = vector_x
value = 2
[../]
[./vy]
type = ConstantAux
variable = vector_y
value = 1
[../]
[./vz]
type = ConstantAux
variable = vector_z
value = 2
[../]
[./magnitude]
type = VectorMagnitudeAux
variable = magnitude
x = vector_x
y = vector_y
z = vector_z
[../]
[]
[Executioner]
type = Steady
[]
[Outputs]
exodus = true
[]
modules/porous_flow/test/tests/poroperm/PermTensorFromVar03.i
# Testing permeability calculated from scalar and tensor
# Trivial test, checking calculated permeability is correct
# when k_anisotropy is not specified.
# k = k_anisotropy * perm
[Mesh]
type = GeneratedMesh
dim = 1
nx = 3
xmin = 0
xmax = 3
[]
[GlobalParams]
block = 0
PorousFlowDictator = dictator
[]
[Variables]
[./pp]
[./InitialCondition]
type = ConstantIC
value = 0
[../]
[../]
[]
[Kernels]
[./flux]
type = PorousFlowAdvectiveFlux
gravity = '0 0 0'
variable = pp
[../]
[]
[BCs]
[./ptop]
type = DirichletBC
variable = pp
boundary = right
value = 0
[../]
[./pbase]
type = DirichletBC
variable = pp
boundary = left
value = 1
[../]
[]
[AuxVariables]
[./perm_var]
order = CONSTANT
family = MONOMIAL
[../]
[./perm_x]
order = CONSTANT
family = MONOMIAL
[../]
[./perm_y]
order = CONSTANT
family = MONOMIAL
[../]
[./perm_z]
order = CONSTANT
family = MONOMIAL
[../]
[]
[AuxKernels]
[./perm_var]
type = ConstantAux
value = 2
variable = perm_var
[../]
[./perm_x]
type = PorousFlowPropertyAux
property = permeability
variable = perm_x
row = 0
column = 0
[../]
[./perm_y]
type = PorousFlowPropertyAux
property = permeability
variable = perm_y
row = 1
column = 1
[../]
[./perm_z]
type = PorousFlowPropertyAux
property = permeability
variable = perm_z
row = 2
column = 2
[../]
[]
[Postprocessors]
[./perm_x_left]
type = PointValue
variable = perm_x
point = '0.5 0 0'
[../]
[./perm_y_left]
type = PointValue
variable = perm_y
point = '0.5 0 0'
[../]
[./perm_z_left]
type = PointValue
variable = perm_z
point = '0.5 0 0'
[../]
[./perm_x_right]
type = PointValue
variable = perm_x
point = '2.5 0 0'
[../]
[./perm_y_right]
type = PointValue
variable = perm_y
point = '2.5 0 0'
[../]
[./perm_z_right]
type = PointValue
variable = perm_z
point = '2.5 0 0'
[../]
[]
[UserObjects]
[./dictator]
type = PorousFlowDictator
porous_flow_vars = 'pp'
number_fluid_phases = 1
number_fluid_components = 1
[../]
[./pc]
type = PorousFlowCapillaryPressureVG
# unimportant in this fully-saturated test
m = 0.8
alpha = 1e-4
[../]
[]
[Modules]
[./FluidProperties]
[./simple_fluid]
type = SimpleFluidProperties
[../]
[../]
[]
[Materials]
[./permeability]
type = PorousFlowPermeabilityTensorFromVar
perm = perm_var
[../]
[./temperature]
type = PorousFlowTemperature
[../]
[./massfrac]
type = PorousFlowMassFraction
[../]
[./eff_fluid_pressure]
type = PorousFlowEffectiveFluidPressure
[../]
[./ppss]
type = PorousFlow1PhaseP
porepressure = pp
capillary_pressure = pc
[../]
[./simple_fluid]
type = PorousFlowSingleComponentFluid
fp = simple_fluid
phase = 0
[../]
[./porosity]
type = PorousFlowPorosity
porosity_zero = 0.1
[../]
[./relperm]
type = PorousFlowRelativePermeabilityCorey
n = 0 # unimportant in this fully-saturated situation
phase = 0
[../]
[]
[Preconditioning]
[./andy]
type = SMP
full = true
[../]
[]
[Executioner]
solve_type = Newton
type = Steady
l_tol = 1E-5
nl_abs_tol = 1E-3
nl_rel_tol = 1E-8
l_max_its = 200
nl_max_its = 400
petsc_options_iname = '-pc_type -pc_asm_overlap -sub_pc_type -ksp_type -ksp_gmres_restart'
petsc_options_value = ' asm 2 lu gmres 200'
[]
[Outputs]
csv = true
execute_on = 'timestep_end'
[]
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/sm/frictionless_penalty_sm.i
[Mesh]
file = blocks_2d.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e7
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.10
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
system = Constraint
master = 2
slave = 3
model = frictionless
formulation = penalty
penalty = 1e+7
[../]
[]
test/tests/misc/check_error/invalid_aux_coupling_test.i
[Mesh]
file = square.e
[]
[Variables]
active = 'u'
[./u]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./nodal_aux]
order = FIRST
family = LAGRANGE
[../]
[./elemental_aux]
# order = FIRST
# family = LAGRANGE
order = CONSTANT
family = MONOMIAL
[../]
[]
[Kernels]
active = 'diff'
[./diff]
type = Diffusion
variable = u
[../]
[]
[AuxKernels]
[./nodal]
type = CoupledAux
variable = nodal_aux
coupled = elemental_aux
[../]
[./elemental]
type = ConstantAux
variable = elemental_aux
value = 6
[../]
[]
[BCs]
active = 'left right'
[./left]
type = DirichletBC
variable = u
boundary = 1
value = 0
[../]
[./right]
type = DirichletBC
variable = u
boundary = 2
value = 1
[../]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
[]
[Outputs]
file_base = out
exodus = true
[]
modules/fluid_properties/test/tests/auxkernels/stagnation_pressure_aux.i
[Mesh]
type = GeneratedMesh
dim = 1
nx = 2
[]
[Variables]
[./u]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./specific_internal_energy]
[../]
[./specific_volume]
[../]
[./velocity]
[../]
[./stagnation_pressure]
[../]
[]
[Kernels]
[./diff_u]
type = Diffusion
variable = u
[../]
[]
[AuxKernels]
[./specific_internal_energy_ak]
type = ConstantAux
variable = specific_internal_energy
value = 1026.2e3
[../]
[./specific_volume_ak]
type = ConstantAux
variable = specific_volume
value = 0.0012192
[../]
[./velocity_ak]
type = ConstantAux
variable = velocity
value = 10.0
[../]
[./stagnation_pressure_ak]
type = StagnationPressureAux
variable = stagnation_pressure
e = specific_internal_energy
v = specific_volume
vel = velocity
fp = eos
[../]
[]
[Modules]
[./FluidProperties]
[./eos]
type = StiffenedGasFluidProperties
gamma = 2.35
q = -1167e3
q_prime = 0.0
p_inf = 1e9
cv = 1816.0
[../]
[]
[]
[BCs]
[./left_u]
type = DirichletBC
variable = u
boundary = 0
value = 1
[../]
[./right_u]
type = DirichletBC
variable = u
boundary = 1
value = 2
[../]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
[]
[Outputs]
exodus = true
[]
modules/combined/test/tests/sliding_block/in_and_out/dirac/sm/frictional_02_penalty_sm.i
# This is a benchmark test that checks Dirac based frictional
# contact using the penalty method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2 and a friction coefficient
# of 0.2 is used. The gold file is run on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
displacements = 'disp_x disp_y'
volumetric_locking_correction = false
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-7
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
nl_rel_tol = 1e-6
dtmin = 0.01
l_tol = 1e-6
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = coulomb
penalty = 1e+7
formulation = penalty
friction_coefficient = 0.2
normal_smoothing_distance = 0.1
system = DiracKernel
[../]
[]
test/tests/auxkernels/element_aux_var/element_aux_var_test.i
[Mesh]
file = square.e
[]
[Variables]
[u]
order = FIRST
family = LAGRANGE
[]
[]
[AuxVariables]
[one]
order = CONSTANT
family = MONOMIAL
[]
[five]
order = FIRST
family = LAGRANGE
[]
[three]
order = CONSTANT
family = MONOMIAL
[]
[coupled_nine]
order = CONSTANT
family = MONOMIAL
[]
[coupled_fifteen]
order = CONSTANT
family = MONOMIAL
[]
[coupled]
order = CONSTANT
family = MONOMIAL
[]
[coupled_nl]
order = CONSTANT
family = MONOMIAL
[]
[coupled_grad_nl]
order = CONSTANT
family = MONOMIAL
[]
[]
[Kernels]
# Coupling of nonlinear to Aux
[diff]
type = Diffusion
variable = u
[]
[force]
type = CoupledForce
variable = u
v = one
[]
[]
[AuxKernels]
# Simple Aux Kernel
# Shows coupling of Element to Nodal
# Shows coupling of Element to non-linear
# Shows coupling of Element to non-linear grad
[constant]
variable = one
type = ConstantAux
value = 1
[]
[coupled_nine]
variable = coupled_nine
type = CoupledAux
value = 3
operator = *
coupled = three
[]
[coupled_three]
variable = three
type = CoupledAux
value = 2
operator = +
coupled = one
[]
[coupled_fifteen]
variable = coupled_fifteen
type = CoupledAux
value = 5
operator = *
coupled = three
[]
[coupled]
variable = coupled
type = CoupledAux
value = 2
coupled = five
[]
[coupled_nl]
variable = coupled_nl
type = CoupledAux
value = 2
coupled = u
[]
[coupled_grad_nl]
variable = coupled_grad_nl
type = CoupledGradAux
grad = '2 0 0'
coupled = u
[]
[five]
type = ConstantAux
variable = five
boundary = '1 2'
value = 5
[]
[]
[BCs]
[left]
type = DirichletBC
variable = u
boundary = 1
value = 0
[]
[right]
type = DirichletBC
variable = u
boundary = 2
value = 1
[]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
[]
[Outputs]
file_base = out
[exodus]
type = Exodus
elemental_as_nodal = true
[]
[]
modules/heat_conduction/test/tests/heat_conduction/coupled_convective_heat_flux/const_hw.i
[Mesh]
type = GeneratedMesh
dim = 2
nx = 10
ny = 10
[]
[Variables]
[./u]
[../]
[]
[AuxVariables]
[./t_infinity]
[../]
[]
[Kernels]
[./diff]
type = Diffusion
variable = u
[../]
[./force]
type = BodyForce
variable = u
value = 1000
[../]
[]
[AuxKernels]
[./t_infinity]
type = ConstantAux
variable = t_infinity
value = 500
execute_on = initial
[../]
[]
[BCs]
[./right]
type = CoupledConvectiveHeatFluxBC
variable = u
boundary = right
htc = 10
T_infinity = t_infinity
[../]
[]
[Executioner]
type = Steady
#Preconditioned JFNK (default)
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_hypre_type'
petsc_options_value = 'hypre boomeramg'
[]
[Outputs]
exodus = true
[]
modules/combined/test/tests/sliding_block/sliding/constraint/frictional_02_penalty.i
# This is a benchmark test that checks constraint based frictional
# contact using the penalty method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# A friction coefficient of 0.2 is used. The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = coulomb
penalty = 1e+7
friction_coefficient = 0.2
formulation = penalty
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
test/tests/auxkernels/element_aux_var/block_global_depend_elem_aux.i
[Mesh]
file = rectangle.e
[]
[Variables]
[./u]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./coupled_left]
order = CONSTANT
family = MONOMIAL
block = 1
[../]
[./coupled_right]
order = CONSTANT
family = MONOMIAL
block = 2
[../]
[./two]
order = CONSTANT
family = MONOMIAL
initial_condition = 0
[../]
[]
[Kernels]
[./diff]
type = Diffusion
variable = u
[../]
[./body_force]
type = BodyForce
variable = u
block = 1
value = 10
[../]
[]
[AuxKernels]
[./coupled_left]
variable = coupled_left
type = CoupledAux
value = 8
operator = /
coupled = two
[../]
[./coupled_right]
variable = coupled_right
type = CoupledAux
value = 8
operator = /
coupled = two
[../]
[./two]
type = ConstantAux
variable = two
value = 2
[../]
[]
[BCs]
active = 'right'
[./left]
type = DirichletBC
variable = u
boundary = 1
value = 1
[../]
[./right]
type = DirichletBC
variable = u
boundary = 2
value = 1
[../]
[]
[Executioner]
type = Steady
[]
[Outputs]
exodus = true
[]
modules/tensor_mechanics/test/tests/truss/truss_2d.i
#
# Truss in two dimensional space
#
# The truss is made of five equilateral triangles supported at each end.
# The truss starts at (0,0). At (1,0), there is a point load of 25.
# The reactions are therefore
# Ryleft = 2/3 * 25 = 16.7
# Ryright = 1/3 * 25 = 8.33
# The area of each member is 0.8.
# Statics gives the stress in each member. For example, for element 6 (from
# (0,0) to (1/2,sqrt(3)/2)), the force is
# f = 2/3 * 25 * 2/sqrt(3) = 100/3/sqrt(3) (compressive)
# and the stress is
# s = -100/3/sqrt(3)/0.8 = -24.06
#
[Mesh]
type = FileMesh
file = truss_2d.e
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
order = FIRST
family = LAGRANGE
[../]
[./disp_y]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./axial_stress]
order = CONSTANT
family = MONOMIAL
[../]
[./e_over_l]
order = CONSTANT
family = MONOMIAL
[../]
[./area]
order = CONSTANT
family = MONOMIAL
# initial_condition = 1.0
[../]
[./react_x]
order = FIRST
family = LAGRANGE
[../]
[./react_y]
order = FIRST
family = LAGRANGE
[../]
[./react_z]
order = FIRST
family = LAGRANGE
[../]
[]
[Functions]
[./x2]
type = PiecewiseLinear
x = '0 1 2 3'
y = '0 .5 1 1'
[../]
[./y2]
type = PiecewiseLinear
x = '0 1 2 3'
y = '0 0 .5 1'
[../]
[]
[BCs]
[./fixx1]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0
[../]
[./fixy1]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0
[../]
[./fixy4]
type = DirichletBC
variable = disp_y
boundary = 4
value = 0
[../]
[]
[DiracKernels]
[./pull]
type = ConstantPointSource
value = -25
point = '1 0 0'
variable = disp_y
[../]
[]
[AuxKernels]
[./axial_stress]
type = MaterialRealAux
block = 1
property = axial_stress
variable = axial_stress
[../]
[./e_over_l]
type = MaterialRealAux
block = 1
property = e_over_l
variable = e_over_l
[../]
[./area]
type = ConstantAux
block = 1
variable = area
value = 0.8
execute_on = 'initial timestep_begin'
[../]
[]
[Preconditioning]
[./SMP]
type = SMP
full = true
[../]
[]
[Executioner]
type = Transient
solve_type = PJFNK
petsc_options_iname = '-pc_type -ksp_gmres_restart'
petsc_options_value = 'jacobi 101'
nl_max_its = 15
nl_rel_tol = 1e-8
nl_abs_tol = 1e-10
dt = 1
num_steps = 1
end_time = 1
[]
[Kernels]
[./solid_x]
type = StressDivergenceTensorsTruss
block = 1
displacements = 'disp_x disp_y'
component = 0
variable = disp_x
area = area
save_in = react_x
[../]
[./solid_y]
type = StressDivergenceTensorsTruss
block = 1
displacements = 'disp_x disp_y'
component = 1
variable = disp_y
area = area
save_in = react_y
[../]
[]
[Materials]
[./linelast]
type = LinearElasticTruss
block = 1
youngs_modulus = 1e6
displacements = 'disp_x disp_y'
[../]
[]
[Outputs]
exodus = true
[]
modules/combined/test/tests/sliding_block/sliding/constraint/sm/frictionless_penalty_sm.i
# This is a benchmark test that checks constraint based frictionless
# contact using the penalty method. In this test a constant
# displacement is applied in the horizontal direction to simulate
# a small block come sliding down a larger block.
#
# The gold file is run on one processor
# and the benchmark case is run on a minimum of 4 processors to ensure no
# parallel variability in the contact pressure and penetration results.
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[SolidMechanics]
[./solid]
disp_x = disp_x
disp_y = disp_y
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = Elastic
formulation = NonlinearPlaneStrain
block = 1
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[./right]
type = Elastic
formulation = NonlinearPlaneStrain
block = 2
disp_y = disp_y
disp_x = disp_x
poissons_ratio = 0.3
youngs_modulus = 1e6
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+7
formulation = penalty
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
modules/combined/test/tests/contact_verification/patch_tests/plane_2/plane2_template1.i
[GlobalParams]
volumetric_locking_correction = true
displacements = 'disp_x disp_y'
[]
[Mesh]
file = plane2_mesh.e
[]
[Problem]
type = ReferenceResidualProblem
extra_tag_vectors = 'ref'
reference_vector = 'ref'
[]
[Variables]
[./disp_x]
[../]
[./disp_y]
[../]
[]
[AuxVariables]
[./stress_xx]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_yy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_xy]
order = CONSTANT
family = MONOMIAL
[../]
[./stress_zz]
order = CONSTANT
family = MONOMIAL
[../]
[./penetration]
[../]
[./saved_x]
[../]
[./saved_y]
[../]
[./diag_saved_x]
[../]
[./diag_saved_y]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Kernels]
[./TensorMechanics]
use_displaced_mesh = true
save_in = 'saved_x saved_y'
extra_vector_tags = 'ref'
[../]
[]
[AuxKernels]
[./stress_xx]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xx
index_i = 0
index_j = 0
execute_on = timestep_end
[../]
[./stress_yy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_yy
index_i = 1
index_j = 1
execute_on = timestep_end
[../]
[./stress_xy]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_xy
index_i = 0
index_j = 1
execute_on = timestep_end
[../]
[./stress_zz]
type = RankTwoAux
rank_two_tensor = stress
variable = stress_zz
index_i = 2
index_j = 2
execute_on = timestep_end
[../]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 4
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 4
paired_boundary = 3
[../]
[]
[Postprocessors]
[./bot_react_x]
type = NodalSum
variable = saved_x
boundary = 1
[../]
[./bot_react_y]
type = NodalSum
variable = saved_y
boundary = 1
[../]
[./top_react_x]
type = NodalSum
variable = saved_x
boundary = 5
[../]
[./top_react_y]
type = NodalSum
variable = saved_y
boundary = 5
[../]
[./ref_resid_x]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_x
[../]
[./ref_resid_y]
type = NodalL2Norm
execute_on = timestep_end
variable = saved_y
[../]
[./sigma_yy]
type = ElementAverageValue
variable = stress_yy
[../]
[./sigma_zz]
type = ElementAverageValue
variable = stress_zz
[../]
[./disp_x5]
type = NodalVariableValue
nodeid = 4
variable = disp_x
[../]
[./disp_x9]
type = NodalVariableValue
nodeid = 8
variable = disp_x
[../]
[./disp_y5]
type = NodalVariableValue
nodeid = 4
variable = disp_y
[../]
[./disp_y9]
type = NodalVariableValue
nodeid = 8
variable = disp_y
[../]
[./_dt]
type = TimestepSize
[../]
[./num_lin_it]
type = NumLinearIterations
[../]
[./num_nonlin_it]
type = NumNonlinearIterations
[../]
[]
[BCs]
[./bot_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./side_x]
type = DirichletBC
variable = disp_x
boundary = 2
value = 0.0
[../]
[./top_press]
type = Pressure
variable = disp_y
boundary = 5
component = 1
factor = 109.89
[../]
[]
[Materials]
[./bot_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./bot_strain]
type = ComputeIncrementalSmallStrain
block = '1'
[../]
[./bot_stress]
type = ComputeFiniteStrainElasticStress
block = '1'
[../]
[./top_elas_tens]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./top_strain]
type = ComputeIncrementalSmallStrain
block = '2'
[../]
[./top_stress]
type = ComputeFiniteStrainElasticStress
block = '2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type -pc_factor_mat_solver_package'
petsc_options_value = 'lu superlu_dist'
line_search = 'none'
nl_abs_tol = 1e-8
nl_rel_tol = 1e-7
l_max_its = 100
nl_max_its = 200
dt = 1.0
end_time = 1.0
num_steps = 10
dtmin = 1.0
l_tol = 1e-3
[]
[VectorPostprocessors]
[./x_disp]
type = NodalValueSampler
variable = disp_x
boundary = '1 3 4 5'
sort_by = x
[../]
[./cont_press]
type = NodalValueSampler
variable = contact_pressure
boundary = '3'
sort_by = x
[../]
[]
[Outputs]
print_linear_residuals = true
perf_graph = true
[./exodus]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[./chkfile]
type = CSV
show = 'bot_react_x bot_react_y disp_x5 disp_y5 disp_x9 disp_y9 sigma_yy sigma_zz top_react_x top_react_y x_disp cont_press'
execute_vector_postprocessors_on = timestep_end
[../]
[./outfile]
type = CSV
delimiter = ' '
execute_vector_postprocessors_on = none
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 4
system = constraint
normalize_penalty = true
tangential_tolerance = 1e-3
penalty = 1e+9
[../]
[]
modules/combined/test/tests/mechanical_contact_constraint/blocks_2d/frictionless_penalty.i
[Mesh]
file = blocks_2d.e
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = DirichletBC
variable = disp_x
boundary = 4
#Initial gap is 0.01
value = -0.02
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1'
youngs_modulus = 1e7
poissons_ratio = 0.3
[../]
[./right]
type = ComputeIsotropicElasticityTensor
block = '2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options_iname = '-pc_type'
petsc_options_value = 'lu'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.01
end_time = 0.10
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-8
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
system = Constraint
master = 2
slave = 3
model = frictionless
formulation = penalty
penalty = 1e+7
[../]
[]
modules/combined/test/tests/gap_heat_transfer_mortar/gap_heat_transfer_mortar_displaced.i
[Mesh]
displacements = 'disp_x disp_y'
[file]
type = FileMeshGenerator
file = 2blk-gap.e
[]
[slave]
type = LowerDBlockFromSidesetGenerator
sidesets = '101'
new_block_id = 10001
new_block_name = 'slave_lower'
input = file
[]
[master]
type = LowerDBlockFromSidesetGenerator
sidesets = '100'
new_block_id = 10000
new_block_name = 'master_lower'
input = slave
[]
[]
[Problem]
kernel_coverage_check = false
material_coverage_check = false
[]
[AuxVariables]
[./disp_x]
block = '1'
[../]
[./disp_y]
block = '1'
[../]
[]
[AuxKernels]
[./disp_x_kernel]
type = ConstantAux
variable = disp_x
value = 0.1
block = '1'
[../]
[./disp_y_kernel]
type = ConstantAux
variable = disp_y
value = 0
block = '1'
[../]
[]
[Variables]
[./temp]
order = FIRST
family = LAGRANGE
block = '1 2'
[../]
[./lm]
order = FIRST
family = LAGRANGE
block = 'slave_lower'
[../]
[]
[Materials]
[./left]
type = HeatConductionMaterial
block = 1
thermal_conductivity = 1000
specific_heat = 1
[../]
[./right]
type = HeatConductionMaterial
block = 2
thermal_conductivity = 500
specific_heat = 1
[../]
[]
[Kernels]
[./hc_displaced_block]
type = HeatConduction
variable = temp
use_displaced_mesh = true
block = '1'
[../]
[./hc_undisplaced_block]
type = HeatConduction
variable = temp
use_displaced_mesh = false
block = '2'
[../]
[]
[Constraints]
[./ced]
type = GapConductanceConstraint
variable = lm
slave_variable = temp
k = 100
use_displaced_mesh = true
master_boundary = 100
master_subdomain = 10000
slave_boundary = 101
slave_subdomain = 10001
[../]
[]
[BCs]
[./left]
type = DirichletBC
variable = temp
boundary = 'left'
value = 1
[../]
[./right]
type = DirichletBC
variable = temp
boundary = 'right'
value = 0
[../]
[]
[Preconditioning]
[./fmp]
type = SMP
full = true
solve_type = 'NEWTON'
[../]
[]
[Executioner]
type = Steady
nl_rel_tol = 1e-11
[]
[Outputs]
exodus = true
show = 'temp disp_x disp_y'
[]
test/tests/auxkernels/element_aux_var/element_high_order_aux_test.i
[Mesh]
file = square.e
[]
[Variables]
[./u]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
[./high_order]
order = NINTH
family = MONOMIAL
[../]
[./one]
order = CONSTANT
family = MONOMIAL
[../]
[]
[Kernels]
# Coupling of nonlinear to Aux
[./diff]
type = Diffusion
variable = u
[../]
[./force]
type = CoupledForce
variable = u
v = one
[../]
[]
[AuxKernels]
[./coupled_high_order]
variable = high_order
type = CoupledAux
value = 2
operator = +
coupled = u
execute_on = 'initial timestep_end'
[../]
[./constant]
variable = one
type = ConstantAux
value = 1
execute_on = 'initial timestep_end'
[../]
[]
[BCs]
[./left]
type = DirichletBC
variable = u
boundary = 1
value = 0
[../]
[./right]
type = DirichletBC
variable = u
boundary = 2
value = 1
[../]
[]
[Executioner]
type = Steady
solve_type = 'PJFNK'
[]
[Postprocessors]
[./int2_u]
type = ElementL2Norm
variable = u
execute_on = 'initial timestep_end'
[../]
[./int2_ho]
type = ElementL2Norm
variable = high_order
execute_on = 'initial timestep_end'
[../]
[./int_u]
type = ElementIntegralVariablePostprocessor
variable = u
execute_on = 'initial timestep_end'
[../]
[./int_ho]
type = ElementIntegralVariablePostprocessor
variable = high_order
execute_on = 'initial timestep_end'
[../]
[]
[Outputs]
[./ex_out]
type = Exodus
file_base = ho
elemental_as_nodal = true
[../]
[]
modules/combined/test/tests/sliding_block/in_and_out/constraint/frictionless_kinematic.i
# This is a benchmark test that checks constraint based frictionless
# contact using the kinematic method. In this test a sinusoidal
# displacement is applied in the horizontal direction to simulate
# a small block come in and out of contact as it slides down a larger block.
#
# The sinusoid is of the form 0.4sin(4t)+0.2. The gold file is run
# on one processor and the benchmark
# case is run on a minimum of 4 processors to ensure no parallel variability
# in the contact pressure and penetration results. Further documentation can
# found in moose/modules/contact/doc/sliding_block/
#
[Mesh]
file = sliding_elastic_blocks_2d.e
patch_size = 80
[]
[GlobalParams]
volumetric_locking_correction = false
displacements = 'disp_x disp_y'
[]
[AuxVariables]
[./penetration]
[../]
[./inc_slip_x]
[../]
[./inc_slip_y]
[../]
[./accum_slip_x]
[../]
[./accum_slip_y]
[../]
[]
[Functions]
[./vertical_movement]
type = ParsedFunction
value = -t
[../]
[./horizontal_movement]
type = ParsedFunction
value = -0.04*sin(4*t)+0.02
[../]
[]
[Modules/TensorMechanics/Master]
[./all]
add_variables = true
strain = FINITE
[../]
[]
[AuxKernels]
[./zeroslip_x]
type = ConstantAux
variable = inc_slip_x
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./zeroslip_y]
type = ConstantAux
variable = inc_slip_y
boundary = 3
execute_on = timestep_begin
value = 0.0
[../]
[./accum_slip_x]
type = AccumulateAux
variable = accum_slip_x
accumulate_from_variable = inc_slip_x
execute_on = timestep_end
[../]
[./accum_slip_y]
type = AccumulateAux
variable = accum_slip_y
accumulate_from_variable = inc_slip_y
execute_on = timestep_end
[../]
[./penetration]
type = PenetrationAux
variable = penetration
boundary = 3
paired_boundary = 2
[../]
[]
[Postprocessors]
[./nonlinear_its]
type = NumNonlinearIterations
execute_on = timestep_end
[../]
[./penetration]
type = NodalVariableValue
variable = penetration
nodeid = 222
[../]
[./contact_pressure]
type = NodalVariableValue
variable = contact_pressure
nodeid = 222
[../]
[]
[BCs]
[./left_x]
type = DirichletBC
variable = disp_x
boundary = 1
value = 0.0
[../]
[./left_y]
type = DirichletBC
variable = disp_y
boundary = 1
value = 0.0
[../]
[./right_x]
type = FunctionDirichletBC
variable = disp_x
boundary = 4
function = horizontal_movement
[../]
[./right_y]
type = FunctionDirichletBC
variable = disp_y
boundary = 4
function = vertical_movement
[../]
[]
[Materials]
[./left]
type = ComputeIsotropicElasticityTensor
block = '1 2'
youngs_modulus = 1e6
poissons_ratio = 0.3
[../]
[./stress]
type = ComputeFiniteStrainElasticStress
block = '1 2'
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
petsc_options = '-snes_ksp_ew'
petsc_options_iname = '-pc_type -sub_pc_type -pc_asm_overlap -ksp_gmres_restart'
petsc_options_value = 'asm lu 20 101'
line_search = 'none'
l_max_its = 100
nl_max_its = 1000
dt = 0.1
end_time = 15
num_steps = 1000
l_tol = 1e-6
nl_rel_tol = 1e-10
nl_abs_tol = 1e-6
dtmin = 0.01
[./Predictor]
type = SimplePredictor
scale = 1.0
[../]
[]
[Outputs]
interval = 10
[./out]
type = Exodus
elemental_as_nodal = true
[../]
[./console]
type = Console
max_rows = 5
[../]
[]
[Contact]
[./leftright]
slave = 3
master = 2
model = frictionless
penalty = 1e+6
system = constraint
normal_smoothing_distance = 0.1
[../]
[]
test/tests/outputs/variables/output_vars_hidden_shown_check.i
[Mesh]
type = GeneratedMesh
dim = 2
xmin = 0
xmax = 1
ymin = 0
ymax = 1
nx = 10
ny = 10
elem_type = QUAD9
[]
[Variables]
[./u]
order = FIRST
family = LAGRANGE
[../]
[./v]
order = SECOND
family = LAGRANGE
[../]
# ODE variables
[./x]
family = SCALAR
order = FIRST
initial_condition = 1
[../]
[./y]
family = SCALAR
order = FIRST
initial_condition = 2
[../]
[]
[AuxVariables]
[./elemental]
order = CONSTANT
family = MONOMIAL
[../]
[./elemental_restricted]
order = CONSTANT
family = MONOMIAL
[../]
[./nodal]
order = FIRST
family = LAGRANGE
[../]
[./nodal_restricted]
order = FIRST
family = LAGRANGE
[../]
[]
[Kernels]
[./td]
type = TimeDerivative
variable = u
[../]
[./diff_u]
type = Diffusion
variable = u
[../]
[./conv_u]
type = CoupledForce
variable = u
v = v
[../]
[./diff_v]
type = Diffusion
variable = v
[../]
[]
[AuxKernels]
[./elemental]
type = ConstantAux
variable = elemental
value = 1
[../]
[./elemental_restricted]
type = ConstantAux
variable = elemental_restricted
value = 1
[../]
[./nodal]
type = ConstantAux
variable = elemental
value = 2
[../]
[./nodal_restricted]
type = ConstantAux
variable = elemental_restricted
value = 2
[../]
[]
[ScalarKernels]
[./td1]
type = ODETimeDerivative
variable = x
[../]
[./ode1]
type = ImplicitODEx
variable = x
y = y
[../]
[./td2]
type = ODETimeDerivative
variable = y
[../]
[./ode2]
type = ImplicitODEy
variable = y
x = x
[../]
[]
[BCs]
active = 'left_u right_u left_v'
[./left_u]
type = DirichletBC
variable = u
boundary = 1
value = 1
[../]
[./right_u]
type = DirichletBC
variable = u
boundary = 3
value = 9
[../]
[./left_v]
type = DirichletBC
variable = v
boundary = 1
value = 5
[../]
[./right_v]
type = DirichletBC
variable = v
boundary = 2
value = 2
[../]
[]
[Postprocessors]
[./x]
type = ScalarVariable
variable = x
execute_on = timestep_end
[../]
[./y]
type = ScalarVariable
variable = y
execute_on = timestep_end
[../]
[]
[Executioner]
type = Transient
solve_type = 'PJFNK'
dt = 0.01
num_steps = 10
[]
[Outputs]
file_base = out_hidden
exodus = true
hide = 'u elemental nodal x'
show = u
[]
test/tests/auxkernels/nodal_aux_var/nodal_aux_ts_test.i
#
# Testing nodal aux variables that are computed only at the end of the time step
#
[Mesh]
type = GeneratedMesh
dim = 2
xmin = 0
xmax = 1
ymin = 0
ymax = 1
nx = 3
ny = 3
[]
[Variables]
active = 'u'
[./u]
order = FIRST
family = LAGRANGE
[../]
[]
[AuxVariables]
active = 'aux1 aux2'
[./aux1]
order = FIRST
family = LAGRANGE
[../]
[./aux2]
order = FIRST
family = LAGRANGE
[../]
[]
[Kernels]
active = 'ie diff force'
[./ie]
type = TimeDerivative
variable = u
[../]
[./diff]
type = Diffusion
variable = u
[../]
#Coupling of nonlinear to Aux
[./force]
type = CoupledForce
variable = u
v = aux2
[../]
[]
[AuxKernels]
active = 'constant field'
#Simple Aux Kernel
[./constant]
variable = aux1
type = ConstantAux
value = 1
[../]
#Shows coupling of Aux to nonlinear
[./field]
variable = aux2
type = CoupledAux
value = 2
coupled = u
execute_on = timestep_end
[../]
[]
[BCs]
active = 'left right'
[./left]
type = DirichletBC
variable = u
boundary = 1
value = 0
[../]
[./right]
type = DirichletBC
variable = u
boundary = 3
value = 1
[../]
[]
[Executioner]
type = Transient
start_time = 0
dt = 0.1
num_steps = 2
solve_type = 'PJFNK'
[]
[Outputs]
file_base = out_ts
exodus = true
[]