KratosMultiphysics
KRATOS Multiphysics (Kratos) is a framework for building parallel, multi-disciplinary simulation software, aiming at modularity, extensibility, and high performance. Kratos is written in C++, and counts with an extensive Python interface.
Kratos::BakerJohnsonCookJ2ThermoPlasticityModel Member List

This is the complete list of members for Kratos::BakerJohnsonCookJ2ThermoPlasticityModel, including all inherited members.

AddPlasticConstitutiveComponent(PlasticDataType &rVariables, PlasticFactors &rFactors, double &rCabcd, const unsigned int &a, const unsigned int &b, const unsigned int &c, const unsigned int &d)Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlineprotectedvirtual
BakerJohnsonCookJ2ThermoPlasticityModel()Kratos::BakerJohnsonCookJ2ThermoPlasticityModelinline
BakerJohnsonCookJ2ThermoPlasticityModel(BakerJohnsonCookJ2ThermoPlasticityModel const &rOther)Kratos::BakerJohnsonCookJ2ThermoPlasticityModelinline
BaseType typedefKratos::BakerJohnsonCookJ2ThermoPlasticityModel
BaseTypePointer typedefKratos::BakerJohnsonCookJ2ThermoPlasticityModel
CalculateAndAddIsochoricStressTensor(PlasticDataType &rVariables, MatrixType &rStressMatrix)Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlineprotectedvirtual
CalculateAndAddPlasticConstitutiveTensor(PlasticDataType &rVariables, Matrix &rConstitutiveMatrix)Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlineprotectedvirtual
CalculateConstitutiveTensor(ModelDataType &rValues, Matrix &rConstitutiveMatrix) overrideKratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlinevirtual
CalculateImplexReturnMapping(PlasticDataType &rVariables, MatrixType &rStressMatrix) overrideKratos::NonLinearRateDependentPlasticityModel< IncompressibleNeoHookeanModel, MisesHuberThermalYieldSurface< BakerJohnsonCookThermalHardeningRule > >inlineprotectedvirtual
CalculateImplexThermalDissipation(PlasticDataType &rVariables)Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlineprotected
CalculateIsochoricConstitutiveTensor(ModelDataType &rValues, Matrix &rConstitutiveMatrix) overrideKratos::PlasticityModel< TElasticityModel, TYieldSurface >inlinevirtual
CalculateIsochoricStressAndConstitutiveTensors(ModelDataType &rValues, MatrixType &rStressMatrix, Matrix &rConstitutiveMatrix) overrideKratos::PlasticityModel< TElasticityModel, TYieldSurface >inlinevirtual
CalculateIsochoricStressTensor(ModelDataType &rValues, MatrixType &rStressMatrix) overrideKratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlinevirtual
CalculateLineSearch(PlasticDataType &rVariables, double &rAlpha)Kratos::NonLinearRateDependentPlasticityModel< IncompressibleNeoHookeanModel, MisesHuberThermalYieldSurface< BakerJohnsonCookThermalHardeningRule > >inlineprotected
CalculateRateDependentReturnMapping(PlasticDataType &rVariables, MatrixType &rStressMatrix)Kratos::NonLinearRateDependentPlasticityModel< IncompressibleNeoHookeanModel, MisesHuberThermalYieldSurface< BakerJohnsonCookThermalHardeningRule > >inlineprotected
CalculateRateIndependentReturnMapping(PlasticDataType &rVariables, MatrixType &rStressMatrix)Kratos::NonLinearRateDependentPlasticityModel< IncompressibleNeoHookeanModel, MisesHuberThermalYieldSurface< BakerJohnsonCookThermalHardeningRule > >inlineprotected
CalculateReturnMapping(PlasticDataType &rVariables, MatrixType &rStressMatrix) overrideKratos::NonLinearRateDependentPlasticityModel< IncompressibleNeoHookeanModel, MisesHuberThermalYieldSurface< BakerJohnsonCookThermalHardeningRule > >inlineprotectedvirtual
CalculateScalingFactors(PlasticDataType &rVariables, PlasticFactors &rFactors)Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlineprotectedvirtual
CalculateStrainEnergy(ModelDataType &rValues, double &rDensityFunction)Kratos::ConstitutiveModelvirtual
CalculateStressAndConstitutiveTensors(ModelDataType &rValues, MatrixType &rStressMatrix, Matrix &rConstitutiveMatrix) overrideKratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlinevirtual
CalculateStressTensor(ModelDataType &rValues, MatrixType &rStressMatrix) overrideKratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlinevirtual
CalculateThermalDissipation(PlasticDataType &rVariables)Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlineprotected
CalculateVolumetricConstitutiveTensor(ModelDataType &rValues, Matrix &rConstitutiveMatrix) overrideKratos::PlasticityModel< TElasticityModel, TYieldSurface >inlinevirtual
CalculateVolumetricStressAndConstitutiveTensors(ModelDataType &rValues, MatrixType &rStressMatrix, Matrix &rConstitutiveMatrix) overrideKratos::PlasticityModel< TElasticityModel, TYieldSurface >inlinevirtual
CalculateVolumetricStressTensor(ModelDataType &rValues, MatrixType &rStressMatrix) overrideKratos::PlasticityModel< TElasticityModel, TYieldSurface >inlinevirtual
Check(const Properties &rProperties, const ProcessInfo &rCurrentProcessInfo) overrideKratos::PlasticityModel< TElasticityModel, TYieldSurface >inlinevirtual
Clone() const overrideKratos::BakerJohnsonCookJ2ThermoPlasticityModelinlinevirtual
ConstitutiveModel()Kratos::ConstitutiveModel
ConstitutiveModel(ConstitutiveModel const &rOther)Kratos::ConstitutiveModel
DerivedType typedefKratos::NonLinearRateDependentPlasticityModel< IncompressibleNeoHookeanModel, MisesHuberThermalYieldSurface< BakerJohnsonCookThermalHardeningRule > >
ElasticityModelPointer typedefKratos::BakerJohnsonCookJ2ThermoPlasticityModel
ElasticityModelType typedefKratos::BakerJohnsonCookJ2ThermoPlasticityModel
FinalizeModel(ModelDataType &rValues) overrideKratos::PlasticityModel< TElasticityModel, TYieldSurface >inlinevirtual
GetDomainVariablesList(std::vector< Variable< double > > &rScalarVariables, std::vector< Variable< array_1d< double, 3 > > > &rComponentVariables) overrideKratos::BakerJohnsonCookJ2ThermoPlasticityModelinlinevirtual
GetElasticityModel()Kratos::PlasticityModel< TElasticityModel, TYieldSurface >inline
GetValue(const Variable< double > &rThisVariable, double &rValue) overrideKratos::BakerJohnsonCookJ2ThermoPlasticityModelinlinevirtual
GetWorkingMeasures(PlasticDataType &rVariables, MatrixType &rStressMatrix)Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlineprotectedvirtual
HardeningRuleType typedefKratos::BakerJohnsonCookJ2ThermoPlasticityModel
Has(const Variable< double > &rThisVariable) overrideKratos::BakerJohnsonCookJ2ThermoPlasticityModelinlinevirtual
Info() const overrideKratos::BakerJohnsonCookJ2ThermoPlasticityModelinlinevirtual
InitializeMaterial(const Properties &rProperties) overrideKratos::PlasticityModel< TElasticityModel, TYieldSurface >inlinevirtual
InitializeModel(ModelDataType &rValues) overrideKratos::PlasticityModel< TElasticityModel, TYieldSurface >inlinevirtual
InitializeVariables(ModelDataType &rValues, PlasticDataType &rVariables)Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlineprotectedvirtual
InternalVariablesType typedefKratos::BakerJohnsonCookJ2ThermoPlasticityModel
KRATOS_CLASS_POINTER_DEFINITION(BakerJohnsonCookJ2ThermoPlasticityModel)Kratos::BakerJohnsonCookJ2ThermoPlasticityModel
NonLinearRateDependentPlasticityModel< IncompressibleNeoHookeanModel, MisesHuberThermalYieldSurface< BakerJohnsonCookThermalHardeningRule > >::KRATOS_CLASS_POINTER_DEFINITION(NonLinearRateDependentPlasticityModel)Kratos::NonLinearRateDependentPlasticityModel< IncompressibleNeoHookeanModel, MisesHuberThermalYieldSurface< BakerJohnsonCookThermalHardeningRule > >
Kratos::NonLinearAssociativePlasticityModel::KRATOS_CLASS_POINTER_DEFINITION(NonLinearAssociativePlasticityModel)Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >
Kratos::PlasticityModel::KRATOS_CLASS_POINTER_DEFINITION(PlasticityModel)Kratos::PlasticityModel< TElasticityModel, TYieldSurface >
Kratos::ConstitutiveModel::KRATOS_CLASS_POINTER_DEFINITION(ConstitutiveModel)Kratos::ConstitutiveModel
KRATOS_DEFINE_LOCAL_FLAG(ADD_HISTORY_VECTOR)Kratos::ConstitutiveModel
KRATOS_DEFINE_LOCAL_FLAG(HISTORY_STRAIN_MEASURE)Kratos::ConstitutiveModel
KRATOS_DEFINE_LOCAL_FLAG(HISTORY_STRESS_MEASURE)Kratos::ConstitutiveModel
MaterialDataType typedefKratos::BakerJohnsonCookJ2ThermoPlasticityModel
MatrixType typedefKratos::BakerJohnsonCookJ2ThermoPlasticityModel
mElasticityModelKratos::PlasticityModel< TElasticityModel, TYieldSurface >protected
mHistoryVectorKratos::ConstitutiveModelprotected
mInternalKratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >protected
ModelDataType typedefKratos::BakerJohnsonCookJ2ThermoPlasticityModel
mOptionsKratos::ConstitutiveModelprotected
mPreviousInternalKratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >protected
mThermalVariablesKratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >protected
mYieldSurfaceKratos::PlasticityModel< TElasticityModel, TYieldSurface >protected
NonLinearAssociativePlasticityModel()Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inline
NonLinearAssociativePlasticityModel(NonLinearAssociativePlasticityModel const &rOther)Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inline
NonLinearRateDependentPlasticityModel()Kratos::NonLinearRateDependentPlasticityModel< IncompressibleNeoHookeanModel, MisesHuberThermalYieldSurface< BakerJohnsonCookThermalHardeningRule > >inline
NonLinearRateDependentPlasticityModel(ElasticityModelPointer pElasticityModel, YieldSurfacePointer pYieldSurface)Kratos::NonLinearRateDependentPlasticityModel< IncompressibleNeoHookeanModel, MisesHuberThermalYieldSurface< BakerJohnsonCookThermalHardeningRule > >inline
NonLinearRateDependentPlasticityModel(NonLinearRateDependentPlasticityModel const &rOther)Kratos::NonLinearRateDependentPlasticityModel< IncompressibleNeoHookeanModel, MisesHuberThermalYieldSurface< BakerJohnsonCookThermalHardeningRule > >inline
operator=(BakerJohnsonCookJ2ThermoPlasticityModel const &rOther)Kratos::BakerJohnsonCookJ2ThermoPlasticityModelinline
NonLinearRateDependentPlasticityModel< IncompressibleNeoHookeanModel, MisesHuberThermalYieldSurface< BakerJohnsonCookThermalHardeningRule > >::operator=(NonLinearRateDependentPlasticityModel const &rOther)Kratos::NonLinearRateDependentPlasticityModel< IncompressibleNeoHookeanModel, MisesHuberThermalYieldSurface< BakerJohnsonCookThermalHardeningRule > >inline
Kratos::NonLinearAssociativePlasticityModel::operator=(NonLinearAssociativePlasticityModel const &rOther)Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inline
Kratos::PlasticityModel::operator=(PlasticityModel const &rOther)Kratos::PlasticityModel< TElasticityModel, TYieldSurface >inline
Kratos::ConstitutiveModel::operator=(ConstitutiveModel const &rOther)Kratos::ConstitutiveModel
PlasticDataType typedefKratos::BakerJohnsonCookJ2ThermoPlasticityModel
PlasticityModel()Kratos::PlasticityModel< TElasticityModel, TYieldSurface >inline
PlasticityModel(PlasticityModel const &rOther)Kratos::PlasticityModel< TElasticityModel, TYieldSurface >inline
PrintData(std::ostream &rOStream) const overrideKratos::BakerJohnsonCookJ2ThermoPlasticityModelinlinevirtual
PrintInfo(std::ostream &rOStream) const overrideKratos::BakerJohnsonCookJ2ThermoPlasticityModelinlinevirtual
Serializer classKratos::BakerJohnsonCookJ2ThermoPlasticityModelfriend
SetInternalVariables(ModelDataType &rValues, PlasticDataType &rVariables)Kratos::PlasticityModel< TElasticityModel, TYieldSurface >inlineprotectedvirtual
SetValue(const Variable< double > &rVariable, const double &rValue, const ProcessInfo &rCurrentProcessInfo) overrideKratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlinevirtual
Kratos::ConstitutiveModel::SetValue(const Variable< Vector > &rThisVariable, const Vector &rValue, const ProcessInfo &rCurrentProcessInfo)Kratos::ConstitutiveModelvirtual
Kratos::ConstitutiveModel::SetValue(const Variable< Matrix > &rThisVariable, const Matrix &rValue, const ProcessInfo &rCurrentProcessInfo)Kratos::ConstitutiveModelvirtual
SetWorkingMeasures(PlasticDataType &rVariables, MatrixType &rStressMatrix)Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlineprotectedvirtual
SizeType typedefKratos::BakerJohnsonCookJ2ThermoPlasticityModel
StrainMeasureType typedefKratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >
StressMeasureType typedefKratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >
UpdateInternalVariables(ModelDataType &rValues, PlasticDataType &rVariables, const MatrixType &rStressMatrix)Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlineprotectedvirtual
UpdateStressConfiguration(PlasticDataType &rVariables, MatrixType &rStressMatrix)Kratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inlineprotectedvirtual
VectorType typedefKratos::PlasticityModel< TElasticityModel, TYieldSurface >
VoigtIndexType typedefKratos::BakerJohnsonCookJ2ThermoPlasticityModel
YieldSurfacePointer typedefKratos::BakerJohnsonCookJ2ThermoPlasticityModel
YieldSurfaceType typedefKratos::BakerJohnsonCookJ2ThermoPlasticityModel
~BakerJohnsonCookJ2ThermoPlasticityModel() overrideKratos::BakerJohnsonCookJ2ThermoPlasticityModelinline
~ConstitutiveModel()Kratos::ConstitutiveModelvirtual
~NonLinearAssociativePlasticityModel() overrideKratos::NonLinearAssociativePlasticityModel< TElasticityModel, TYieldSurface >inline
~NonLinearRateDependentPlasticityModel() overrideKratos::NonLinearRateDependentPlasticityModel< IncompressibleNeoHookeanModel, MisesHuberThermalYieldSurface< BakerJohnsonCookThermalHardeningRule > >inline
~PlasticityModel() overrideKratos::PlasticityModel< TElasticityModel, TYieldSurface >inline