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DynamicTensorMechanics

Set up dynamic stress divergence kernels

Description

This action creates the DynamicStressDivergenceTensors kernel input blocks in all coordinate directions. More information about the usage of this action can be found at Dynamics

Input Parameters

  • displacementsThe nonlinear displacement variables for the problem

    C++ Type:std::vector<VariableName>

    Options:

    Description:The nonlinear displacement variables for the problem

Required Parameters

  • active__all__ If specified only the blocks named will be visited and made active

    Default:__all__

    C++ Type:std::vector<std::string>

    Options:

    Description:If specified only the blocks named will be visited and made active

  • add_variablesFalseAdd the displacement variables

    Default:False

    C++ Type:bool

    Options:

    Description:Add the displacement variables

  • alpha0alpha parameter for HHT time integration

    Default:0

    C++ Type:double

    Options:

    Description:alpha parameter for HHT time integration

  • automatic_eigenstrain_namesFalseCollects all material eigenstrains and passes to required strain calculator within TMA internally.

    Default:False

    C++ Type:bool

    Options:

    Description:Collects all material eigenstrains and passes to required strain calculator within TMA internally.

  • base_nameMaterial property base name

    C++ Type:std::string

    Options:

    Description:Material property base name

  • cylindrical_axis_point1Starting point for direction of axis of rotation for cylindrical stress/strain.

    C++ Type:libMesh::Point

    Options:

    Description:Starting point for direction of axis of rotation for cylindrical stress/strain.

  • cylindrical_axis_point2Ending point for direction of axis of rotation for cylindrical stress/strain.

    C++ Type:libMesh::Point

    Options:

    Description:Ending point for direction of axis of rotation for cylindrical stress/strain.

  • decomposition_methodTaylorExpansionMethods to calculate the finite strain and rotation increments

    Default:TaylorExpansion

    C++ Type:MooseEnum

    Options:TaylorExpansion, EigenSolution

    Description:Methods to calculate the finite strain and rotation increments

  • directionDirection stress/strain is calculated in

    C++ Type:libMesh::Point

    Options:

    Description:Direction stress/strain is calculated in

  • eigenstrain_namesList of eigenstrains to be applied in this strain calculation

    C++ Type:std::vector<MaterialPropertyName>

    Options:

    Description:List of eigenstrains to be applied in this strain calculation

  • extra_vector_tagsThe tag names for extra vectors that residual data should be saved into

    C++ Type:std::vector<TagName>

    Options:

    Description:The tag names for extra vectors that residual data should be saved into

  • global_strainName of the global strain material to be applied in this strain calculation. The global strain tensor is constant over the whole domain and allows visualization of the deformed shape with the periodic BC

    C++ Type:MaterialPropertyName

    Options:

    Description:Name of the global strain material to be applied in this strain calculation. The global strain tensor is constant over the whole domain and allows visualization of the deformed shape with the periodic BC

  • inactiveIf specified blocks matching these identifiers will be skipped.

    C++ Type:std::vector<std::string>

    Options:

    Description:If specified blocks matching these identifiers will be skipped.

  • incrementalFalseUse incremental or total strain

    Default:False

    C++ Type:bool

    Options:

    Description:Use incremental or total strain

  • scalingThe scaling to apply to the displacement variables

    C++ Type:double

    Options:

    Description:The scaling to apply to the displacement variables

  • static_initializationFalseSet to true get the system to equilibrium under gravity by running a quasi-static analysis (by solving Ku = F) in the first time step.

    Default:False

    C++ Type:bool

    Options:

    Description:Set to true get the system to equilibrium under gravity by running a quasi-static analysis (by solving Ku = F) in the first time step.

  • strainSMALLStrain formulation

    Default:SMALL

    C++ Type:MooseEnum

    Options:SMALL, FINITE

    Description:Strain formulation

  • strain_base_nameThe base name used for the strain. If not provided, it will be set equal to base_name

    C++ Type:std::string

    Options:

    Description:The base name used for the strain. If not provided, it will be set equal to base_name

  • temperatureThe temperature

    C++ Type:std::vector<VariableName>

    Options:

    Description:The temperature

  • use_automatic_differentiationFalseFlag to use automatic differentiation (AD) objects when possible

    Default:False

    C++ Type:bool

    Options:

    Description:Flag to use automatic differentiation (AD) objects when possible

  • use_displaced_meshFalseWhether to use displaced mesh in the kernels

    Default:False

    C++ Type:bool

    Options:

    Description:Whether to use displaced mesh in the kernels

  • use_finite_deform_jacobianFalseJacobian for corrotational finite strain

    Default:False

    C++ Type:bool

    Options:

    Description:Jacobian for corrotational finite strain

  • verboseFalseDisplay extra information.

    Default:False

    C++ Type:bool

    Options:

    Description:Display extra information.

  • volumetric_locking_correctionFalseFlag to correct volumetric locking

    Default:False

    C++ Type:bool

    Options:

    Description:Flag to correct volumetric locking

  • zeta0Name of material property or a constant real number defining the zeta parameter for the Rayleigh damping.

    Default:0

    C++ Type:MaterialPropertyName

    Options:

    Description:Name of material property or a constant real number defining the zeta parameter for the Rayleigh damping.

Optional Parameters

  • additional_generate_outputAdd scalar quantity output for stress and/or strain (will be appended to the list in `generate_output`)

    C++ Type:MultiMooseEnum

    Options:creep_strain_xx, creep_strain_xy, creep_strain_xz, creep_strain_yx, creep_strain_yy, creep_strain_yz, creep_strain_zx, creep_strain_zy, creep_strain_zz, creep_stress_xx, creep_stress_xy, creep_stress_xz, creep_stress_yx, creep_stress_yy, creep_stress_yz, creep_stress_zx, creep_stress_zy, creep_stress_zz, elastic_strain_xx, elastic_strain_xy, elastic_strain_xz, elastic_strain_yx, elastic_strain_yy, elastic_strain_yz, elastic_strain_zx, elastic_strain_zy, elastic_strain_zz, mechanical_strain_xx, mechanical_strain_xy, mechanical_strain_xz, mechanical_strain_yx, mechanical_strain_yy, mechanical_strain_yz, mechanical_strain_zx, mechanical_strain_zy, mechanical_strain_zz, plastic_strain_xx, plastic_strain_xy, plastic_strain_xz, plastic_strain_yx, plastic_strain_yy, plastic_strain_yz, plastic_strain_zx, plastic_strain_zy, plastic_strain_zz, strain_xx, strain_xy, strain_xz, strain_yx, strain_yy, strain_yz, strain_zx, strain_zy, strain_zz, stress_xx, stress_xy, stress_xz, stress_yx, stress_yy, stress_yz, stress_zx, stress_zy, stress_zz, effective_plastic_strain, effective_creep_strain, firstinv_stress, firstinv_strain, hydrostatic_stress, intensity_stress, l2norm_mechanical_strain, l2norm_stress, l2norm_strain, l2norm_elastic_strain, l2norm_plastic_strain, l2norm_creep_strain, max_principal_mechanical_strain, max_principal_stress, max_principal_strain, maxshear_stress, mid_principal_mechanical_strain, mid_principal_stress, mid_principal_strain, min_principal_mechanical_strain, min_principal_stress, min_principal_strain, secondinv_stress, secondinv_strain, thirdinv_stress, thirdinv_strain, triaxiality_stress, volumetric_mechanical_strain, volumetric_strain, vonmises_stress, directional_stress, directional_strain, axial_stress, axial_strain, axial_plastic_strain, axial_creep_strain, axial_elastic_strain, hoop_stress, hoop_strain, hoop_plastic_strain, hoop_creep_strain, hoop_elastic_strain, radial_stress, radial_strain

    Description:Add scalar quantity output for stress and/or strain (will be appended to the list in `generate_output`)

  • additional_material_output_familySpecifies the family of FE shape functions to use for this variable.

    C++ Type:MultiMooseEnum

    Options:MONOMIAL, LAGRANGE

    Description:Specifies the family of FE shape functions to use for this variable.

  • additional_material_output_orderSpecifies the order of the FE shape function to use for this variable.

    C++ Type:MultiMooseEnum

    Options:CONSTANT, FIRST, SECOND, THIRD, FOURTH, FIFTH, SIXTH, SEVENTH, EIGHTH, NINTH

    Description:Specifies the order of the FE shape function to use for this variable.

  • generate_outputAdd scalar quantity output for stress and/or strain

    C++ Type:MultiMooseEnum

    Options:creep_strain_xx, creep_strain_xy, creep_strain_xz, creep_strain_yx, creep_strain_yy, creep_strain_yz, creep_strain_zx, creep_strain_zy, creep_strain_zz, creep_stress_xx, creep_stress_xy, creep_stress_xz, creep_stress_yx, creep_stress_yy, creep_stress_yz, creep_stress_zx, creep_stress_zy, creep_stress_zz, elastic_strain_xx, elastic_strain_xy, elastic_strain_xz, elastic_strain_yx, elastic_strain_yy, elastic_strain_yz, elastic_strain_zx, elastic_strain_zy, elastic_strain_zz, mechanical_strain_xx, mechanical_strain_xy, mechanical_strain_xz, mechanical_strain_yx, mechanical_strain_yy, mechanical_strain_yz, mechanical_strain_zx, mechanical_strain_zy, mechanical_strain_zz, plastic_strain_xx, plastic_strain_xy, plastic_strain_xz, plastic_strain_yx, plastic_strain_yy, plastic_strain_yz, plastic_strain_zx, plastic_strain_zy, plastic_strain_zz, strain_xx, strain_xy, strain_xz, strain_yx, strain_yy, strain_yz, strain_zx, strain_zy, strain_zz, stress_xx, stress_xy, stress_xz, stress_yx, stress_yy, stress_yz, stress_zx, stress_zy, stress_zz, effective_plastic_strain, effective_creep_strain, firstinv_stress, firstinv_strain, hydrostatic_stress, intensity_stress, l2norm_mechanical_strain, l2norm_stress, l2norm_strain, l2norm_elastic_strain, l2norm_plastic_strain, l2norm_creep_strain, max_principal_mechanical_strain, max_principal_stress, max_principal_strain, maxshear_stress, mid_principal_mechanical_strain, mid_principal_stress, mid_principal_strain, min_principal_mechanical_strain, min_principal_stress, min_principal_strain, secondinv_stress, secondinv_strain, thirdinv_stress, thirdinv_strain, triaxiality_stress, volumetric_mechanical_strain, volumetric_strain, vonmises_stress, directional_stress, directional_strain, axial_stress, axial_strain, axial_plastic_strain, axial_creep_strain, axial_elastic_strain, hoop_stress, hoop_strain, hoop_plastic_strain, hoop_creep_strain, hoop_elastic_strain, radial_stress, radial_strain

    Description:Add scalar quantity output for stress and/or strain

  • material_output_familySpecifies the family of FE shape functions to use for this variable.

    C++ Type:MultiMooseEnum

    Options:MONOMIAL, LAGRANGE

    Description:Specifies the family of FE shape functions to use for this variable.

  • material_output_orderSpecifies the order of the FE shape function to use for this variable.

    C++ Type:MultiMooseEnum

    Options:CONSTANT, FIRST, SECOND, THIRD, FOURTH, FIFTH, SIXTH, SEVENTH, EIGHTH, NINTH

    Description:Specifies the order of the FE shape function to use for this variable.

Output Parameters

  • blockThe list of ids of the blocks (subdomain) that the stress divergence kernels will be applied to

    C++ Type:std::vector<SubdomainName>

    Options:

    Description:The list of ids of the blocks (subdomain) that the stress divergence kernels will be applied to

  • diag_save_inThe displacement diagonal preconditioner terms

    C++ Type:std::vector<AuxVariableName>

    Options:

    Description:The displacement diagonal preconditioner terms

  • save_inThe displacement residuals

    C++ Type:std::vector<AuxVariableName>

    Options:

    Description:The displacement residuals

Advanced Parameters

  • out_of_plane_directionzThe direction of the out-of-plane strain.

    Default:z

    C++ Type:MooseEnum

    Options:x, y, z

    Description:The direction of the out-of-plane strain.

  • out_of_plane_pressure_functionFunction used to prescribe pressure (applied toward the body) in the out-of-plane direction (y for 1D Axisymmetric or z for 2D Cartesian problems)

    C++ Type:FunctionName

    Options:

    Description:Function used to prescribe pressure (applied toward the body) in the out-of-plane direction (y for 1D Axisymmetric or z for 2D Cartesian problems)

  • out_of_plane_pressure_material0Material used to prescribe pressure (applied toward the body) in the out-of-plane direction

    Default:0

    C++ Type:MaterialPropertyName

    Options:

    Description:Material used to prescribe pressure (applied toward the body) in the out-of-plane direction

  • out_of_plane_strainVariable for the out-of-plane strain for plane stress models

    C++ Type:VariableName

    Options:

    Description:Variable for the out-of-plane strain for plane stress models

  • planar_formulationNONEOut-of-plane stress/strain formulation

    Default:NONE

    C++ Type:MooseEnum

    Options:NONE, WEAK_PLANE_STRESS, PLANE_STRAIN, GENERALIZED_PLANE_STRAIN

    Description:Out-of-plane stress/strain formulation

  • pressure_factorScale factor applied to prescribed out-of-plane pressure (both material and function)

    C++ Type:double

    Options:

    Description:Scale factor applied to prescribed out-of-plane pressure (both material and function)

  • scalar_out_of_plane_strainScalar variable for the out-of-plane strain (in y direction for 1D Axisymmetric or in z direction for 2D Cartesian problems)

    C++ Type:VariableName

    Options:

    Description:Scalar variable for the out-of-plane strain (in y direction for 1D Axisymmetric or in z direction for 2D Cartesian problems)

Out-Of-Plane Stress/Strain Parameters