ADComputeDilatationThermalExpansionFunctionEigenstrain< compute_stage > Class Template Reference

ADComputeDilatationThermalExpansionFunctionEigenstrain computes an eigenstrain for thermal expansion from an dilatation function. More...

#include <ADComputeDilatationThermalExpansionFunctionEigenstrain.h>

Inheritance diagram for ADComputeDilatationThermalExpansionFunctionEigenstrain< compute_stage >:

Public Member Functions
	ADComputeDilatationThermalExpansionFunctionEigenstrain (const InputParameters &parameters)

Static Public Member Functions
static InputParameters	validParams ()

Protected Member Functions
virtual ADReal	computeDilatation (const ADReal &temperature) override
virtual void	computeThermalStrain (ADReal &thermal_strain) override
virtual void	computeQpEigenstrain () override
	Compute the eigenstrain and store in _eigenstrain. More...
virtual void	initQpStatefulProperties () override
virtual void	computeQpProperties () override
	ADMaterialProperty (RankTwoTensor) &_eigenstrain
	Stores the current total eigenstrain. More...
ADReal	computeVolumetricStrainComponent (const ADReal volumetric_strain) const
	Helper function for models that compute the eigenstrain based on a volumetric strain. More...

Protected Attributes
const Function &	_dilatation_function
	Dilatation function. More...
	usingComputeDilatationThermalExpansionEigenstrainBaseMembers
	usingComputeThermalExpansionEigenstrainBaseMembers
const ADVariableValue &	_temperature
const ADVariableValue &	_stress_free_temperature
	usingComputeEigenstrainBaseMembers
const std::string	_base_name
	Base name prepended to material property name. More...
std::string	_eigenstrain_name
	Material property name for the eigenstrain tensor. More...
bool &	_step_zero
	Restartable data to check for the zeroth and first time steps for thermal calculations. More...
	usingMaterialMembers

Detailed Description

template<ComputeStage compute_stage>
class ADComputeDilatationThermalExpansionFunctionEigenstrain< compute_stage >

ADComputeDilatationThermalExpansionFunctionEigenstrain computes an eigenstrain for thermal expansion from an dilatation function.

Definition at line 16 of file ADComputeDilatationThermalExpansionFunctionEigenstrain.h.

Constructor & Destructor Documentation

ADComputeDilatationThermalExpansionFunctionEigenstrain()

template<ComputeStage compute_stage>

ADComputeDilatationThermalExpansionFunctionEigenstrain< compute_stage >::ADComputeDilatationThermalExpansionFunctionEigenstrain

(

const InputParameters &

parameters

)

Definition at line 34 of file ADComputeDilatationThermalExpansionFunctionEigenstrain.C.

  : ADComputeDilatationThermalExpansionEigenstrainBase<compute_stage>(parameters),
    _dilatation_function(getFunction("dilatation_function"))
{
}

Member Function Documentation

ADMaterialProperty()

template<ComputeStage compute_stage>

ADComputeEigenstrainBase< compute_stage >::ADMaterialProperty ( RankTwoTensor  ) &

protectedinherited

Stores the current total eigenstrain.

computeDilatation()

template<ComputeStage compute_stage>

ADReal ADComputeDilatationThermalExpansionFunctionEigenstrain< compute_stage >::computeDilatation ( const ADReal &  temperature )

overrideprotectedvirtual

Implements ADComputeDilatationThermalExpansionEigenstrainBase< compute_stage >.

Definition at line 42 of file ADComputeDilatationThermalExpansionFunctionEigenstrain.C.

{
  // Note: All dual number information will be lost until functions can handle AD points!
  return _dilatation_function.value(MetaPhysicL::raw_value(temperature), Point());
}

computeQpEigenstrain()

template<ComputeStage compute_stage>

void ADComputeThermalExpansionEigenstrainBase< compute_stage >::computeQpEigenstrain ( )

overrideprotectedvirtualinherited

Compute the eigenstrain and store in _eigenstrain.

Implements ADComputeEigenstrainBase< compute_stage >.

Definition at line 39 of file ADComputeThermalExpansionEigenstrainBase.C.

{
  ADReal thermal_strain = 0.0;
 
  computeThermalStrain(thermal_strain);
 
  _eigenstrain[_qp].zero();
  _eigenstrain[_qp].addIa(thermal_strain);
}

computeQpProperties()

template<ComputeStage compute_stage>

void ADComputeEigenstrainBase< compute_stage >::computeQpProperties ( )

overrideprotectedvirtualinherited

Definition at line 59 of file ADComputeEigenstrainBase.C.

{
  if (_t_step >= 1)
    _step_zero = false;
 
  // Skip the eigenstrain calculation in step zero because no solution is computed during
  // the zeroth step, hence computing the eigenstrain in the zeroth step would result in
  // an incorrect calculation of mechanical_strain, which is stateful.
  if (!_step_zero)
    computeQpEigenstrain();
}

computeThermalStrain()

template<ComputeStage compute_stage>

void ADComputeDilatationThermalExpansionEigenstrainBase< compute_stage >::computeThermalStrain ( ADReal &  thermal_strain )

overrideprotectedvirtualinherited

Implements ADComputeThermalExpansionEigenstrainBase< compute_stage >.

Definition at line 30 of file ADComputeDilatationThermalExpansionEigenstrainBase.C.

{
  thermal_strain =
      computeDilatation(_temperature[_qp]) - computeDilatation(_stress_free_temperature[_qp]);
}

computeVolumetricStrainComponent()

template<ComputeStage compute_stage>

ADReal ADComputeEigenstrainBase< compute_stage >::computeVolumetricStrainComponent ( const ADReal  volumetric_strain ) const

protectedinherited

Helper function for models that compute the eigenstrain based on a volumetric strain.

This function computes the diagonal components of the eigenstrain tensor as logarithmic strains.

Parameters

volumetric_strain

The current volumetric strain to be applied

Returns

Current strain in one direction due to volumetric strain, expressed as a logarithmic strain

Definition at line 73 of file ADComputeEigenstrainBase.C.

{
  // The engineering strain in a given direction is:
  // epsilon_eng = cbrt(volumetric_strain + 1.0) - 1.0
  //
  // We need to provide this as a logarithmic strain to be consistent with the strain measure
  // used for finite strain:
  // epsilon_log = log(1.0 + epsilon_eng)
  //
  // This can be simplified down to a more direct form:
  // epsilon_log = log(cbrt(volumetric_strain + 1.0))
  // or:
  // epsilon_log = (1/3) log(volumetric_strain + 1.0)
 
  return std::log(volumetric_strain + 1.0) / 3.0;
}

initQpStatefulProperties()

template<ComputeStage compute_stage>

void ADComputeEigenstrainBase< compute_stage >::initQpStatefulProperties ( )

overrideprotectedvirtualinherited

Reimplemented in ADComputeInstantaneousThermalExpansionFunctionEigenstrain< compute_stage >.

Definition at line 50 of file ADComputeEigenstrainBase.C.

{
  // This property can be promoted to be stateful by other models that use it,
  // so it needs to be initalized.
  _eigenstrain[_qp].zero();
}

validParams()

template<ComputeStage compute_stage>

InputParameters ADComputeDilatationThermalExpansionFunctionEigenstrain< compute_stage >::validParams ( )

static

Definition at line 20 of file ADComputeDilatationThermalExpansionFunctionEigenstrain.C.

{
  InputParameters params =
      ADComputeDilatationThermalExpansionEigenstrainBase<compute_stage>::validParams();
  params.addClassDescription("Computes eigenstrain due to thermal expansion using a function that "
                             "describes the total dilatation as a function of temperature");
  params.addRequiredParam<FunctionName>(
      "dilatation_function",
      "Function describing the thermal dilatation as a function of temperature");
  return params;
}

Member Data Documentation

_base_name

template<ComputeStage compute_stage>

const std::string ADComputeEigenstrainBase< compute_stage >::_base_name

protectedinherited

Base name prepended to material property name.

Definition at line 50 of file ADComputeEigenstrainBase.h.

_dilatation_function

template<ComputeStage compute_stage>

const Function& ADComputeDilatationThermalExpansionFunctionEigenstrain< compute_stage >::_dilatation_function

protected

Dilatation function.

Definition at line 42 of file ADComputeDilatationThermalExpansionFunctionEigenstrain.h.

_eigenstrain_name

template<ComputeStage compute_stage>

std::string ADComputeEigenstrainBase< compute_stage >::_eigenstrain_name

protectedinherited

Material property name for the eigenstrain tensor.

Definition at line 53 of file ADComputeEigenstrainBase.h.

_step_zero

template<ComputeStage compute_stage>

bool& ADComputeEigenstrainBase< compute_stage >::_step_zero

protectedinherited

Restartable data to check for the zeroth and first time steps for thermal calculations.

Definition at line 69 of file ADComputeEigenstrainBase.h.

_stress_free_temperature

template<ComputeStage compute_stage>

const ADVariableValue& ADComputeThermalExpansionEigenstrainBase< compute_stage >::_stress_free_temperature

protectedinherited

Definition at line 55 of file ADComputeThermalExpansionEigenstrainBase.h.

_temperature

template<ComputeStage compute_stage>

const ADVariableValue& ADComputeThermalExpansionEigenstrainBase< compute_stage >::_temperature

protectedinherited

Definition at line 54 of file ADComputeThermalExpansionEigenstrainBase.h.

usingComputeDilatationThermalExpansionEigenstrainBaseMembers

template<ComputeStage compute_stage>

ADComputeDilatationThermalExpansionFunctionEigenstrain< compute_stage >::usingComputeDilatationThermalExpansionEigenstrainBaseMembers

protected

Definition at line 44 of file ADComputeDilatationThermalExpansionFunctionEigenstrain.h.

usingComputeEigenstrainBaseMembers

template<ComputeStage compute_stage>

ADComputeThermalExpansionEigenstrainBase< compute_stage >::usingComputeEigenstrainBaseMembers

protectedinherited

Definition at line 57 of file ADComputeThermalExpansionEigenstrainBase.h.

usingComputeThermalExpansionEigenstrainBaseMembers

template<ComputeStage compute_stage>

ADComputeDilatationThermalExpansionEigenstrainBase< compute_stage >::usingComputeThermalExpansionEigenstrainBaseMembers

protectedinherited

Definition at line 47 of file ADComputeDilatationThermalExpansionEigenstrainBase.h.

usingMaterialMembers

template<ComputeStage compute_stage>

ADComputeEigenstrainBase< compute_stage >::usingMaterialMembers

protectedinherited

Definition at line 71 of file ADComputeEigenstrainBase.h.

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The documentation for this class was generated from the following files:

• tensor_mechanics/include/materials/ADComputeDilatationThermalExpansionFunctionEigenstrain.h
• tensor_mechanics/src/materials/ADComputeDilatationThermalExpansionFunctionEigenstrain.C