Detailed Description

template<int DisplacementDim>
struct MaterialLib::Solids::MechanicsBase< DisplacementDim >

Interface for mechanical solid material models. Provides updates of the stress for a given current state and also a tangent at that position. If the implemented material model stores an internal state, the nested MaterialStateVariables class should be used; it's only responsibility is to provide state's push back possibility.

Definition at line 52 of file MechanicsBase.h.

#include <MechanicsBase.h>

Inheritance diagram for MaterialLib::Solids::MechanicsBase< DisplacementDim >:

[legend]

Classes
struct	InternalVariable
	Helper type for providing access to internal variables. More...

struct	MaterialStateVariables

Public Types
using	KelvinVector

using	KelvinMatrix

Public Member Functions
virtual std::unique_ptr< MaterialStateVariables >	createMaterialStateVariables () const

virtual void	initializeInternalStateVariables (double const, ParameterLib::SpatialPosition const &, typename MechanicsBase< DisplacementDim >::MaterialStateVariables &) const

virtual std::optional< std::tuple< KelvinVector, std::unique_ptr< MaterialStateVariables >, KelvinMatrix > >	integrateStress (MaterialPropertyLib::VariableArray const &variable_array_prev, MaterialPropertyLib::VariableArray const &variable_array, double const t, ParameterLib::SpatialPosition const &x, double const dt, MaterialStateVariables const &material_state_variables) const =0

virtual std::vector< InternalVariable >	getInternalVariables () const

virtual ConstitutiveModel	getConstitutiveModel () const
	Gets the type of constitutive model.

virtual double	getBulkModulus (double const, ParameterLib::SpatialPosition const &, KelvinMatrix const *const =nullptr) const

virtual double	getTemperatureRelatedCoefficient (double const, double const, ParameterLib::SpatialPosition const &, double const, double const) const

virtual double	computeFreeEnergyDensity (double const t, ParameterLib::SpatialPosition const &x, double const dt, KelvinVector const &eps, KelvinVector const &sigma, MaterialStateVariables const &material_state_variables) const =0

virtual	~MechanicsBase ()=default

Member Typedef Documentation

◆ KelvinMatrix

template<int DisplacementDim>

using MaterialLib::Solids::MechanicsBase< DisplacementDim >::KelvinMatrix

Initial value:

MathLib::KelvinVector::KelvinMatrixType<DisplacementDim>

MathLib::KelvinVector::KelvinMatrixType

Eigen::Matrix< double, kelvin_vector_dimensions(DisplacementDim), kelvin_vector_dimensions(DisplacementDim), Eigen::RowMajor > KelvinMatrixType

Definition KelvinVector.h:55

Definition at line 83 of file MechanicsBase.h.

◆ KelvinVector

template<int DisplacementDim>

using MaterialLib::Solids::MechanicsBase< DisplacementDim >::KelvinVector

Initial value:

MathLib::KelvinVector::KelvinVectorType<DisplacementDim>

MathLib::KelvinVector::KelvinVectorType

Eigen::Matrix< double, kelvin_vector_dimensions(DisplacementDim), 1, Eigen::ColMajor > KelvinVectorType

Definition KelvinVector.h:47

Definition at line 81 of file MechanicsBase.h.

Constructor & Destructor Documentation

◆ ~MechanicsBase()

template<int DisplacementDim>

virtual MaterialLib::Solids::MechanicsBase< DisplacementDim >::~MechanicsBase ( )

virtualdefault

Member Function Documentation

◆ computeFreeEnergyDensity()

template<int DisplacementDim>

virtual double MaterialLib::Solids::MechanicsBase< DisplacementDim >::computeFreeEnergyDensity	(	double const	t,
		ParameterLib::SpatialPosition const &	x,
		double const	dt,
		KelvinVector const &	eps,
		KelvinVector const &	sigma,
		MaterialStateVariables const &	material_state_variables ) const

pure virtual

◆ createMaterialStateVariables()

template<int DisplacementDim>

virtual std::unique_ptr< MaterialStateVariables > MaterialLib::Solids::MechanicsBase< DisplacementDim >::createMaterialStateVariables ( ) const

inlinevirtual

Polymorphic creator for MaterialStateVariables objects specific for a material model.

Reimplemented in MaterialLib::Solids::Creep::CreepBGRa< DisplacementDim >, MaterialLib::Solids::Ehlers::SolidEhlers< DisplacementDim >, MaterialLib::Solids::Lubby2::Lubby2< DisplacementDim >, and MaterialLib::Solids::MFront::MFront< DisplacementDim >.

Definition at line 69 of file MechanicsBase.h.

    {
        return std::make_unique<MaterialStateVariables>();
    }

Referenced by ProcessLib::ThermoHydroMechanics::IntegrationPointData< BMatricesType, ShapeMatrixTypeDisplacement, ShapeMatricesTypePressure, DisplacementDim, NPoints >::updateConstitutiveRelationIce().

◆ getBulkModulus()

template<int DisplacementDim>

virtual double MaterialLib::Solids::MechanicsBase< DisplacementDim >::getBulkModulus	(	double const	,
		ParameterLib::SpatialPosition const &	,
		KelvinMatrix const * const	= nullptr ) const

inlinevirtual

Reimplemented in MaterialLib::Solids::MFront::MFront< DisplacementDim >, MaterialLib::Solids::Ehlers::SolidEhlers< DisplacementDim >, MaterialLib::Solids::LinearElasticIsotropic< DisplacementDim >, MaterialLib::Solids::LinearElasticOrthotropic< DisplacementDim >, MaterialLib::Solids::LinearElasticTransverseIsotropic< DisplacementDim >, and MaterialLib::Solids::Lubby2::Lubby2< DisplacementDim >.

Definition at line 136 of file MechanicsBase.h.

    {
        OGS_FATAL(
            "getBulkModulus is not yet implemented for this Solid Material.");
    }

References OGS_FATAL.

◆ getConstitutiveModel()

template<int DisplacementDim>

virtual ConstitutiveModel MaterialLib::Solids::MechanicsBase< DisplacementDim >::getConstitutiveModel ( ) const

inlinevirtual

Gets the type of constitutive model.

Reimplemented in MaterialLib::Solids::Creep::CreepBGRa< DisplacementDim >.

Definition at line 131 of file MechanicsBase.h.

    {
        return ConstitutiveModel::Invalid;
    }

References MaterialLib::Solids::Invalid.

◆ getInternalVariables()

template<int DisplacementDim>

virtual std::vector< InternalVariable > MaterialLib::Solids::MechanicsBase< DisplacementDim >::getInternalVariables ( ) const

inlinevirtual

Returns internal variables defined by the specific material model, if any.

Reimplemented in MaterialLib::Solids::Ehlers::SolidEhlers< DisplacementDim >, and MaterialLib::Solids::MFront::MFront< DisplacementDim >.

Definition at line 125 of file MechanicsBase.h.

    {
        return {};
    }

◆ getTemperatureRelatedCoefficient()

template<int DisplacementDim>

virtual double MaterialLib::Solids::MechanicsBase< DisplacementDim >::getTemperatureRelatedCoefficient	(	double const	,
		double const	,
		ParameterLib::SpatialPosition const &	,
		double const	,
		double const	) const

inlinevirtual

Get temperature related coefficient for the global assembly if there is one.

Reimplemented in MaterialLib::Solids::Creep::CreepBGRa< DisplacementDim >.

Definition at line 147 of file MechanicsBase.h.

    {
        return 0.0;
    }

◆ initializeInternalStateVariables()

template<int DisplacementDim>

virtual void MaterialLib::Solids::MechanicsBase< DisplacementDim >::initializeInternalStateVariables	(	double const	,
		ParameterLib::SpatialPosition const &	,
		typename MechanicsBase< DisplacementDim >::MaterialStateVariables &	) const

inlinevirtual

Reimplemented in MaterialLib::Solids::MFront::MFront< DisplacementDim >.

Definition at line 74 of file MechanicsBase.h.

78 {

79 }

Referenced by ProcessLib::ThermoHydroMechanics::IntegrationPointData< BMatricesType, ShapeMatrixTypeDisplacement, ShapeMatricesTypePressure, DisplacementDim, NPoints >::updateConstitutiveRelationIce().

◆ integrateStress()

template<int DisplacementDim>

virtual std::optional< std::tuple< KelvinVector, std::unique_ptr< MaterialStateVariables >, KelvinMatrix > > MaterialLib::Solids::MechanicsBase< DisplacementDim >::integrateStress	(	MaterialPropertyLib::VariableArray const &	variable_array_prev,
		MaterialPropertyLib::VariableArray const &	variable_array,
		double const	t,
		ParameterLib::SpatialPosition const &	x,
		double const	dt,
		MaterialStateVariables const &	material_state_variables ) const

pure virtual

Computation of the constitutive relation for specific material model. This should be implemented in the derived model. Fixed Kelvin vector and matrix size version; for dynamic size arguments there is an overloaded wrapper function. Returns nothing in case of errors in the computation if Newton iterations did not converge, for example.

Referenced by ProcessLib::ThermoHydroMechanics::IntegrationPointData< BMatricesType, ShapeMatrixTypeDisplacement, ShapeMatricesTypePressure, DisplacementDim, NPoints >::updateConstitutiveRelationIce().

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

MaterialLib/SolidModels/CreateConstitutiveRelation.h
MaterialLib/SolidModels/MechanicsBase.h

Detailed Description

Classes

Public Types

Public Member Functions

Member Typedef Documentation

◆ KelvinMatrix

◆ KelvinVector

Constructor & Destructor Documentation

◆ ~MechanicsBase()

Member Function Documentation

◆ computeFreeEnergyDensity()

◆ createMaterialStateVariables()

◆ getBulkModulus()

◆ getConstitutiveModel()

◆ getInternalVariables()

◆ getTemperatureRelatedCoefficient()

◆ initializeInternalStateVariables()

◆ integrateStress()