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::ThermalMohrCoulombYieldSurface< TPlasticPotentialType > Member List

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

AdvCLutils typedefKratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >
BaseType typedefKratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >
CalculateDamageParameter(ConstitutiveLaw::Parameters &rValues, double &rAParameter, const double CharacteristicLength)Kratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >inlinestatic
CalculateEquivalentStress(const array_1d< double, VoigtSize > &rStressVector, const Vector &rStrainVector, double &rEquivalentStress, ConstitutiveLaw::Parameters &rValues)Kratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >inlinestatic
CalculatePlasticPotentialDerivative(const array_1d< double, VoigtSize > &rStressVector, const array_1d< double, VoigtSize > &rDeviator, const double J2, array_1d< double, VoigtSize > &rDerivativePlasticPotential, ConstitutiveLaw::Parameters &rValues)Kratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >inlinestatic
CalculateYieldSurfaceDerivative(const array_1d< double, VoigtSize > &rPredictiveStressVector, const array_1d< double, VoigtSize > &rDeviator, const double J2, array_1d< double, VoigtSize > &rFFlux, ConstitutiveLaw::Parameters &rValues)Kratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >inlinestatic
Check(const Properties &rMaterialProperties)Kratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >inlinestatic
DimensionKratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >static
GetInitialUniaxialThreshold(ConstitutiveLaw::Parameters &rValues, double &rThreshold)Kratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >inlinestatic
GetScaleFactorTension(const Properties &rMaterialProperties)Kratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >inlinestatic
IsWorkingWithTensionThreshold()Kratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >inlinestatic
KRATOS_CLASS_POINTER_DEFINITION(ThermalMohrCoulombYieldSurface)Kratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >
operator=(ThermalMohrCoulombYieldSurface const &rOther)Kratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >inline
PlasticPotentialType typedefKratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >
ThermalMohrCoulombYieldSurface()Kratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >inline
ThermalMohrCoulombYieldSurface(ThermalMohrCoulombYieldSurface const &rOther)Kratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >inline
toleranceKratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >static
VoigtSizeKratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >static
~ThermalMohrCoulombYieldSurface()Kratos::ThermalMohrCoulombYieldSurface< TPlasticPotentialType >inlinevirtual