double& CamClayKinematicHardeningLaw::CalculateHardening(double &rHardening, const double &rAlpha, const double rTemperature) { double FirstPreconsolidationPressure = GetProperties()[PRE_CONSOLIDATION_STRESS]; double SwellingSlope = GetProperties()[SWELLING_SLOPE]; double OtherSlope = GetProperties()[NORMAL_COMPRESSION_SLOPE]; rHardening = -FirstPreconsolidationPressure*(std::exp (-rAlpha/(OtherSlope-SwellingSlope)) ) ; return rHardening; } void CamClayKinematicHardeningLaw::save( Serializer& rSerializer ) const { KRATOS_SERIALIZE_SAVE_BASE_CLASS( rSerializer, HardeningLaw ) } void CamClayKinematicHardeningLaw::load( Serializer& rSerializer ) { KRATOS_SERIALIZE_LOAD_BASE_CLASS( rSerializer, HardeningLaw ) } } // namespace Kratos.
void AxisymUpdatedLagrangianElement::load( Serializer& rSerializer ) { KRATOS_SERIALIZE_LOAD_BASE_CLASS( rSerializer, LargeDisplacementElement ) rSerializer.load("DeformationGradientF0",mDeformationGradientF0); rSerializer.load("DeterminantF0",mDeterminantF0); }
rIntegrationWeight *= GetProperties()[THICKNESS]; return rIntegrationWeight; } //*********************************************************************************** //*********************************************************************************** int PointLoad2DCondition::Check( const ProcessInfo& rCurrentProcessInfo ) { return 0; } //*********************************************************************************** //*********************************************************************************** void PointLoad2DCondition::save( Serializer& rSerializer ) const { KRATOS_SERIALIZE_SAVE_BASE_CLASS( rSerializer, PointLoad3DCondition ) } void PointLoad2DCondition::load( Serializer& rSerializer ) { KRATOS_SERIALIZE_LOAD_BASE_CLASS( rSerializer, PointLoad3DCondition ) } } // Namespace Kratos.
///@name Private Operations ///@{ ///@} ///@name Private Access ///@{ ///@} ///@} ///@name Serialization ///@{ friend class Serializer; virtual void save(Serializer& rSerializer) const { KRATOS_SERIALIZE_SAVE_BASE_CLASS( rSerializer, NonLinearHenckyElasticPlasticAxisym2DLaw ) } virtual void load(Serializer& rSerializer) { KRATOS_SERIALIZE_LOAD_BASE_CLASS( rSerializer, NonLinearHenckyElasticPlasticAxisym2DLaw ) } }; // Class HyperElasticPlasticJ2PlaneStrain2DLaw } // namespace Kratos. #endif // KRATOS_HENCKY_MATSUOKA_PLASTIC_PLANE_STRAIN_2D_LAW_H_INCLUDED defined
void TrescaExplicitFlowRule::ComputePlasticHardeningParameter(const Vector& rHenckyStrainVector, const double& rAlpha, double& rH) { rH = 0.0; } void TrescaExplicitFlowRule::CalculatePlasticPotentialDerivatives(const Vector& rStressVector, Vector& rFirstDerivative, Matrix& rSecondDerivative) { //double YieldStress = mpYieldCriterion->GetHardeningLaw().GetProperties()[YIELD_STRESS]; rFirstDerivative = ZeroVector(1); rSecondDerivative = ZeroMatrix(1,1); return; } void TrescaExplicitFlowRule::save( Serializer& rSerializer) const { KRATOS_SERIALIZE_SAVE_BASE_CLASS( rSerializer, FlowRule ) } void TrescaExplicitFlowRule::load( Serializer& rSerializer) { KRATOS_SERIALIZE_LOAD_BASE_CLASS( rSerializer, FlowRule ) } } //end namespace kratos
///@name Private Operations ///@{ ///@} ///@name Private Access ///@{ ///@} ///@} ///@name Serialization ///@{ friend class Serializer; virtual void save(Serializer& rSerializer) const { KRATOS_SERIALIZE_SAVE_BASE_CLASS( rSerializer, HyperElasticPlasticPlaneStrain2DLaw ) } virtual void load(Serializer& rSerializer) { KRATOS_SERIALIZE_LOAD_BASE_CLASS( rSerializer, HyperElasticPlasticPlaneStrain2DLaw ) } }; // Class HyperElasticPlasticJ2PlaneStrain2DLaw } // namespace Kratos. #endif // KRATOS_HYPERELASTIC_PLASTIC_J2_PLANE_STRAIN_2D_LAW_H_INCLUDED defined
///@} ///@name Serialization ///@{ friend class Serializer; // A private default constructor necessary for serialization IsotropicShellElement() {} virtual void save(Serializer& rSerializer) const { KRATOS_SERIALIZE_SAVE_BASE_CLASS( rSerializer, Element ) } virtual void load(Serializer& rSerializer) { KRATOS_SERIALIZE_LOAD_BASE_CLASS( rSerializer, Element ) } ///@} ///@name Private Inquiry ///@{ ///@} ///@name Un accessible methods ///@{ /// Assignment operator. //IsotropicShellElement& operator=(const IsotropicShellElement& rOther); /// Copy constructor.
return rIntegrationWeight; } //*********************************************************************************** //*********************************************************************************** int LineLoad3DCondition::Check( const ProcessInfo& rCurrentProcessInfo ) { return 0; } //*********************************************************************************** //*********************************************************************************** void LineLoad3DCondition::save( Serializer& rSerializer ) const { KRATOS_SERIALIZE_SAVE_BASE_CLASS( rSerializer, ForceLoadCondition ) } void LineLoad3DCondition::load( Serializer& rSerializer ) { KRATOS_SERIALIZE_LOAD_BASE_CLASS( rSerializer, ForceLoadCondition ) } } // Namespace Kratos.
void TwoStepPeriodicCondition<TDim>::load(Serializer& rSerializer) { KRATOS_SERIALIZE_LOAD_BASE_CLASS(rSerializer, Condition ); }
ForceLoadCondition::CalculateAndAddRHS( rLocalSystem, rVariables, rVolumeForce, IntegrationWeight ); //KRATOS_WATCH( rRightHandSideVector ) } //*********************************************************************************** //*********************************************************************************** int LineLoadAxisym2DCondition::Check( const ProcessInfo& rCurrentProcessInfo ) { return 0; } //*********************************************************************************** //*********************************************************************************** void LineLoadAxisym2DCondition::save( Serializer& rSerializer ) const { KRATOS_SERIALIZE_SAVE_BASE_CLASS( rSerializer, LineLoad2DCondition ) } void LineLoadAxisym2DCondition::load( Serializer& rSerializer ) { KRATOS_SERIALIZE_LOAD_BASE_CLASS( rSerializer, LineLoad2DCondition ) } } // Namespace Kratos.
// DeltaHardening = mpYieldCriterion->GetHardeningLaw().CalculateDeltaHardening( DeltaHardening, HardeningParameters ); // rScalingFactors.Beta0 = 1.0 + DeltaHardening/(3.0 * rReturnMappingVariables.LameMu_bar); // rScalingFactors.Beta1 = 1.0 - ( 2.0 * rReturnMappingVariables.LameMu_bar * rReturnMappingVariables.DeltaGamma / rReturnMappingVariables.NormIsochoricStress ); // rScalingFactors.Beta2 = 0; // rScalingFactors.Beta3 = ( ( 1.0 / rScalingFactors.Beta0 ) - ( 1 - rScalingFactors.Beta1 ) ); // rScalingFactors.Beta4 = 0; // std::cout<<"LINEAR:: Beta0 "<<rScalingFactors.Beta0<<" Beta 1 "<<rScalingFactors.Beta1<<" Beta2 "<<rScalingFactors.Beta2<<" Beta 3 "<<rScalingFactors.Beta3<<" Beta4 "<<rScalingFactors.Beta4<<std::endl; // }; void LinearAssociativePlasticFlowRule::save( Serializer& rSerializer ) const { KRATOS_SERIALIZE_SAVE_BASE_CLASS( rSerializer, NonLinearAssociativePlasticFlowRule ) } void LinearAssociativePlasticFlowRule::load( Serializer& rSerializer ) { KRATOS_SERIALIZE_LOAD_BASE_CLASS( rSerializer, NonLinearAssociativePlasticFlowRule ) } } // namespace Kratos.