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::ViscousGeneralizedKelvin< TElasticBehaviourLaw > Member List

This is the complete list of members for Kratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >, including all inherited members.

BaseType typedefKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
CalculateMaterialResponseCauchy(ConstitutiveLaw::Parameters &rValues) overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
CalculateMaterialResponseKirchhoff(ConstitutiveLaw::Parameters &rValues) overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
CalculateMaterialResponsePK1(ConstitutiveLaw::Parameters &rValues) overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
CalculateMaterialResponsePK2(ConstitutiveLaw::Parameters &rValues) overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
CalculateValue(ConstitutiveLaw::Parameters &rParameterValues, const Variable< Vector > &rThisVariable, Vector &rValue) overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
CalculateValue(ConstitutiveLaw::Parameters &rParameterValues, const Variable< Matrix > &rThisVariable, Matrix &rValue) overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
Check(const Properties &rMaterialProperties, const GeometryType &rElementGeometry, const ProcessInfo &rCurrentProcessInfo) const overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
CLBaseType typedefKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
Clone() const overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
DimensionKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >static
FinalizeMaterialResponseCauchy(ConstitutiveLaw::Parameters &rValues) overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
FinalizeMaterialResponseKirchhoff(ConstitutiveLaw::Parameters &rValues) overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
FinalizeMaterialResponsePK1(ConstitutiveLaw::Parameters &rValues) overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
FinalizeMaterialResponsePK2(ConstitutiveLaw::Parameters &rValues) overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
FinalizeSolutionStep(const Properties &rMaterialProperties, const GeometryType &rElementGeometry, const Vector &rShapeFunctionsValues, const ProcessInfo &rCurrentProcessInfo) overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
GeometryType typedefKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
IndexType typedefKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
KRATOS_CLASS_POINTER_DEFINITION(ViscousGeneralizedKelvin)Kratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
NodeType typedefKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
RequiresFinalizeMaterialResponse() overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >inline
RequiresInitializeMaterialResponse() overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >inline
Serializer classKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >friend
SizeType typedefKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
toleranceKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >static
ViscousGeneralizedKelvin()Kratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
ViscousGeneralizedKelvin(const ViscousGeneralizedKelvin &rOther)Kratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
VoigtSizeKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >static
~ViscousGeneralizedKelvin() overrideKratos::ViscousGeneralizedKelvin< TElasticBehaviourLaw >
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