CappedWeakInclinedPlaneStressUpdate performs the return-map algorithm and associated stress updates for plastic models that describe capped weak-plane plasticity. More...
#include <CappedWeakInclinedPlaneStressUpdate.h>
Public Types | |
using | GR2 = GenericRankTwoTensor< is_ad > |
using | GSR2 = Moose::GenericType< R2, is_ad > |
using | GR4 = GenericRankFourTensor< is_ad > |
using | GSR4 = Moose::GenericType< R4, is_ad > |
enum | ConstantTypeEnum { ConstantTypeEnum::NONE, ConstantTypeEnum::ELEMENT, ConstantTypeEnum::SUBDOMAIN } |
enum | TEST_TYPE |
typedef DataFileName | DataFileParameterType |
Public Member Functions | |
CappedWeakInclinedPlaneStressUpdate (const InputParameters ¶meters) | |
bool | requiresIsotropicTensor () override |
Does the model require the elasticity tensor to be isotropic? More... | |
virtual void | updateState (GR2 &strain_increment, GR2 &inelastic_strain_increment, const GR2 &rotation_increment, GR2 &stress_new, const RankTwoTensor &stress_old, const GR4 &elasticity_tensor, const RankTwoTensor &elastic_strain_old, bool compute_full_tangent_operator=false, RankFourTensor &tangent_operator=StressUpdateBaseTempl< is_ad >::_identityTensor) |
Given a strain increment that results in a trial stress, perform some procedure (such as an iterative return-mapping process) to produce an admissible stress, an elastic strain increment and an inelastic strain increment. More... | |
virtual void | updateStateSubstep (GR2 &, GR2 &, const GR2 &, GR2 &, const RankTwoTensor &, const GR4 &, const RankTwoTensor &, bool compute_full_tangent_operator=false, RankFourTensor &tangent_operator=StressUpdateBaseTempl< is_ad >::_identityTensor) |
Similar to the updateState function, this method updates the strain and stress for one substep. More... | |
void | setQp (unsigned int qp) |
Sets the value of the global variable _qp for inheriting classes. More... | |
virtual bool | isIsotropic () |
Is the implmented model isotropic? The safe default is 'false'. More... | |
virtual Real | computeTimeStepLimit () |
virtual bool | substeppingCapabilityEnabled () |
Does the model include the infrastructure for substep decomposition of the elastic strain initially used to calculate the trial stress guess Inheriting classes which wish to use the substepping capability should overwrite this method and set it to return true. More... | |
virtual bool | substeppingCapabilityRequested () |
Has the user requested usage of (possibly) implemented substepping capability for inelastic models. More... | |
virtual int | calculateNumberSubsteps (const GR2 &) |
Given the elastic strain increment compute the number of substeps required to bring a substepped trial stress guess distance from the yield surface into the tolerance specified in the individual child class. More... | |
virtual void | storeIncrementalMaterialProperties (const unsigned int) |
Properly set up the incremental calculation storage of the stateful material properties in the inheriting classes. More... | |
virtual void | resetIncrementalMaterialProperties () |
Reset material properties. More... | |
virtual Real | computeStrainEnergyRateDensity (const GenericMaterialProperty< RankTwoTensor, is_ad > &, const GenericMaterialProperty< RankTwoTensor, is_ad > &) |
Compute the strain energy rate density for this inelastic model for the current step. More... | |
virtual const dof_id_type & | getElementID (const std::string &id_parameter_name, unsigned int comp=0) const override |
dof_id_type | getElementID (const Elem *elem, unsigned int elem_id_index) const |
virtual const dof_id_type & | getElementIDNeighbor (const std::string &id_parameter_name, unsigned int comp=0) const override |
virtual const dof_id_type & | getElementIDByName (const std::string &id_parameter_name) const override |
virtual const dof_id_type & | getElementIDNeighborByName (const std::string &id_parameter_name) const override |
virtual void | computeProperties () override |
MaterialBase & | getMaterial (const std::string &name) |
MaterialBase & | getMaterialByName (const std::string &name, bool no_warn=false, bool no_dep=false) |
MaterialBase & | getMaterialByName (const std::string &name, bool no_warn=false) |
MaterialBase & | getMaterialByName (const std::string &name, bool no_warn=false) |
virtual bool | isBoundaryMaterial () const override |
virtual const std::unordered_set< unsigned int > & | getMatPropDependencies () const override |
virtual void | subdomainSetup () override |
bool | ghostable () const override final |
virtual void | resolveOptionalProperties () override |
const GenericMaterialProperty< T, is_ad > & | getGenericZeroMaterialProperty (const std::string &name) |
const GenericMaterialProperty< T, is_ad > & | getGenericZeroMaterialProperty () |
const GenericMaterialProperty< T, is_ad > & | getGenericZeroMaterialProperty (const std::string &name) |
const GenericMaterialProperty< T, is_ad > & | getGenericZeroMaterialProperty () |
const GenericMaterialProperty< T, is_ad > & | getGenericZeroMaterialProperty (const std::string &name) |
const GenericMaterialProperty< T, is_ad > & | getGenericZeroMaterialProperty () |
const GenericMaterialProperty< T, is_ad > & | getGenericZeroMaterialPropertyByName (const std::string &prop_name) |
const GenericMaterialProperty< T, is_ad > & | getGenericZeroMaterialPropertyByName (const std::string &prop_name) |
const GenericMaterialProperty< T, is_ad > & | getGenericZeroMaterialPropertyByName (const std::string &prop_name) |
const MaterialProperty< T > & | getZeroMaterialProperty (Ts... args) |
const MaterialProperty< T > & | getZeroMaterialProperty (Ts... args) |
const MaterialProperty< T > & | getZeroMaterialProperty (Ts... args) |
virtual void | initStatefulProperties (unsigned int n_points) |
virtual bool | isInterfaceMaterial () |
virtual void | computePropertiesAtQp (unsigned int qp) |
const MaterialProperty< T > & | getZeroMaterialPropertyByName (Ts... args) |
virtual const std::set< std::string > & | getRequestedItems () override |
virtual const std::set< std::string > & | getSuppliedItems () override |
const std::set< unsigned int > & | getSuppliedPropIDs () |
void | checkStatefulSanity () const |
std::set< OutputName > | getOutputs () |
bool | hasStatefulProperties () const |
void | setFaceInfo (const FaceInfo &fi) |
void | setActiveProperties (const std::unordered_set< unsigned int > &needed_props) |
bool | forceStatefulInit () const |
virtual bool | enabled () const |
std::shared_ptr< MooseObject > | getSharedPtr () |
std::shared_ptr< const MooseObject > | getSharedPtr () const |
MooseApp & | getMooseApp () const |
const std::string & | type () const |
virtual const std::string & | name () const |
std::string | typeAndName () const |
std::string | errorPrefix (const std::string &error_type) const |
void | callMooseError (std::string msg, const bool with_prefix) const |
MooseObjectParameterName | uniqueParameterName (const std::string ¶meter_name) const |
const InputParameters & | parameters () const |
MooseObjectName | uniqueName () const |
const T & | getParam (const std::string &name) const |
std::vector< std::pair< T1, T2 > > | getParam (const std::string ¶m1, const std::string ¶m2) const |
const T & | getRenamedParam (const std::string &old_name, const std::string &new_name) const |
T | getCheckedPointerParam (const std::string &name, const std::string &error_string="") const |
bool | isParamValid (const std::string &name) const |
bool | isParamSetByUser (const std::string &nm) const |
void | paramError (const std::string ¶m, Args... args) const |
void | paramWarning (const std::string ¶m, Args... args) const |
void | paramInfo (const std::string ¶m, Args... args) const |
void | connectControllableParams (const std::string ¶meter, const std::string &object_type, const std::string &object_name, const std::string &object_parameter) const |
void | mooseError (Args &&... args) const |
void | mooseErrorNonPrefixed (Args &&... args) const |
void | mooseDocumentedError (const std::string &repo_name, const unsigned int issue_num, Args &&... args) const |
void | mooseWarning (Args &&... args) const |
void | mooseWarningNonPrefixed (Args &&... args) const |
void | mooseDeprecated (Args &&... args) const |
void | mooseInfo (Args &&... args) const |
std::string | getDataFileName (const std::string ¶m) const |
std::string | getDataFileNameByName (const std::string &name, const std::string *param=nullptr) const |
const std::vector< SubdomainName > & | blocks () const |
unsigned int | numBlocks () const |
virtual const std::set< SubdomainID > & | blockIDs () const |
unsigned int | blocksMaxDimension () const |
bool | hasBlocks (const SubdomainName &name) const |
bool | hasBlocks (const std::vector< SubdomainName > &names) const |
bool | hasBlocks (SubdomainID id) const |
bool | hasBlocks (const std::vector< SubdomainID > &ids) const |
bool | hasBlocks (const std::set< SubdomainID > &ids) const |
bool | isBlockSubset (const std::set< SubdomainID > &ids) const |
bool | isBlockSubset (const std::vector< SubdomainID > &ids) const |
bool | hasBlockMaterialProperty (const std::string &prop_name) |
const std::set< SubdomainID > & | meshBlockIDs () const |
virtual bool | blockRestricted () const |
virtual void | checkVariable (const MooseVariableFieldBase &variable) const |
virtual const std::set< BoundaryID > & | boundaryIDs () const |
const std::vector< BoundaryName > & | boundaryNames () const |
unsigned int | numBoundaryIDs () const |
bool | hasBoundary (const BoundaryName &name) const |
bool | hasBoundary (const std::vector< BoundaryName > &names) const |
bool | hasBoundary (const BoundaryID &id) const |
bool | hasBoundary (const std::vector< BoundaryID > &ids, TEST_TYPE type=ALL) const |
bool | hasBoundary (const std::set< BoundaryID > &ids, TEST_TYPE type=ALL) const |
bool | isBoundarySubset (const std::set< BoundaryID > &ids) const |
bool | isBoundarySubset (const std::vector< BoundaryID > &ids) const |
bool | hasBoundaryMaterialProperty (const std::string &prop_name) const |
virtual bool | boundaryRestricted () const |
const std::set< BoundaryID > & | meshBoundaryIDs () const |
virtual bool | checkVariableBoundaryIntegrity () const |
virtual void | initialSetup () |
virtual void | timestepSetup () |
virtual void | jacobianSetup () |
virtual void | residualSetup () |
virtual void | customSetup (const ExecFlagType &) |
const ExecFlagEnum & | getExecuteOnEnum () const |
const std::set< MooseVariableFieldBase *> & | getMooseVariableDependencies () const |
std::set< MooseVariableFieldBase *> | checkAllVariables (const DofObjectType &dof_object, const std::set< MooseVariableFieldBase * > &vars_to_omit={}) |
std::set< MooseVariableFieldBase *> | checkVariables (const DofObjectType &dof_object, const std::set< MooseVariableFieldBase * > &vars_to_check) |
const std::vector< MooseVariableScalar *> & | getCoupledMooseScalarVars () |
const std::set< TagID > & | getScalarVariableCoupleableVectorTags () const |
const std::set< TagID > & | getScalarVariableCoupleableMatrixTags () const |
const Function & | getFunction (const std::string &name) const |
const Function & | getFunctionByName (const FunctionName &name) const |
bool | hasFunction (const std::string ¶m_name) const |
bool | hasFunctionByName (const FunctionName &name) const |
UserObjectName | getUserObjectName (const std::string ¶m_name) const |
const T & | getUserObject (const std::string ¶m_name, bool is_dependency=true) const |
const T & | getUserObjectByName (const UserObjectName &object_name, bool is_dependency=true) const |
const UserObject & | getUserObjectBase (const std::string ¶m_name, bool is_dependency=true) const |
const UserObject & | getUserObjectBaseByName (const UserObjectName &object_name, bool is_dependency=true) const |
bool | isImplicit () |
bool | isDefaultPostprocessorValue (const std::string ¶m_name, const unsigned int index=0) const |
bool | hasPostprocessor (const std::string ¶m_name, const unsigned int index=0) const |
bool | hasPostprocessorByName (const PostprocessorName &name) const |
std::size_t | coupledPostprocessors (const std::string ¶m_name) const |
const PostprocessorName & | getPostprocessorName (const std::string ¶m_name, const unsigned int index=0) const |
const VectorPostprocessorValue & | getVectorPostprocessorValue (const std::string ¶m_name, const std::string &vector_name) const |
const VectorPostprocessorValue & | getVectorPostprocessorValue (const std::string ¶m_name, const std::string &vector_name, bool needs_broadcast) const |
const VectorPostprocessorValue & | getVectorPostprocessorValueByName (const VectorPostprocessorName &name, const std::string &vector_name) const |
const VectorPostprocessorValue & | getVectorPostprocessorValueByName (const VectorPostprocessorName &name, const std::string &vector_name, bool needs_broadcast) const |
const VectorPostprocessorValue & | getVectorPostprocessorValueOld (const std::string ¶m_name, const std::string &vector_name) const |
const VectorPostprocessorValue & | getVectorPostprocessorValueOld (const std::string ¶m_name, const std::string &vector_name, bool needs_broadcast) const |
const VectorPostprocessorValue & | getVectorPostprocessorValueOldByName (const VectorPostprocessorName &name, const std::string &vector_name) const |
const VectorPostprocessorValue & | getVectorPostprocessorValueOldByName (const VectorPostprocessorName &name, const std::string &vector_name, bool needs_broadcast) const |
const ScatterVectorPostprocessorValue & | getScatterVectorPostprocessorValue (const std::string ¶m_name, const std::string &vector_name) const |
const ScatterVectorPostprocessorValue & | getScatterVectorPostprocessorValueByName (const VectorPostprocessorName &name, const std::string &vector_name) const |
const ScatterVectorPostprocessorValue & | getScatterVectorPostprocessorValueOld (const std::string ¶m_name, const std::string &vector_name) const |
const ScatterVectorPostprocessorValue & | getScatterVectorPostprocessorValueOldByName (const VectorPostprocessorName &name, const std::string &vector_name) const |
bool | hasVectorPostprocessor (const std::string ¶m_name, const std::string &vector_name) const |
bool | hasVectorPostprocessor (const std::string ¶m_name) const |
bool | hasVectorPostprocessorByName (const VectorPostprocessorName &name, const std::string &vector_name) const |
bool | hasVectorPostprocessorByName (const VectorPostprocessorName &name) const |
const VectorPostprocessorName & | getVectorPostprocessorName (const std::string ¶m_name) const |
virtual void | meshChanged () |
void | buildOutputHideVariableList (std::set< std::string > variable_names) |
void | setRandomResetFrequency (ExecFlagType exec_flag) |
unsigned long | getRandomLong () const |
Real | getRandomReal () const |
unsigned int | getSeed (std::size_t id) |
unsigned int | getMasterSeed () const |
bool | isNodal () const |
ExecFlagType | getResetOnTime () const |
void | setRandomDataPointer (RandomData *random_data) |
virtual unsigned int | getElementIDIndex (const std::string &id_parameter_name, unsigned int comp=0) const |
virtual unsigned int | getElementIDIndexByName (const std::string &id_name) const |
bool | hasElementID (const std::string &id_name) const |
dof_id_type | maxElementID (unsigned int elem_id_index) const |
dof_id_type | minElementID (unsigned int elem_id_index) const |
bool | areElemIDsIdentical (const std::string &id_name1, const std::string &id_name2) const |
std::unordered_map< dof_id_type, std::set< dof_id_type > > | getElemIDMapping (const std::string &id_name1, const std::string &id_name2) const |
std::set< dof_id_type > | getAllElemIDs (unsigned int elem_id_index) const |
std::set< dof_id_type > | getElemIDsOnBlocks (unsigned int elem_id_index, const std::set< SubdomainID > &blks) const |
const std::unordered_map< std::string, std::vector< MooseVariableFieldBase *> > & | getCoupledVars () const |
const std::vector< MooseVariableFieldBase *> & | getCoupledMooseVars () const |
const std::vector< MooseVariable *> & | getCoupledStandardMooseVars () const |
const std::vector< VectorMooseVariable *> & | getCoupledVectorMooseVars () const |
const std::vector< ArrayMooseVariable *> & | getCoupledArrayMooseVars () const |
void | addFEVariableCoupleableVectorTag (TagID tag) |
void | addFEVariableCoupleableMatrixTag (TagID tag) |
std::set< TagID > & | getFEVariableCoupleableVectorTags () |
const std::set< TagID > & | getFEVariableCoupleableVectorTags () const |
std::set< TagID > & | getFEVariableCoupleableMatrixTags () |
const std::set< TagID > & | getFEVariableCoupleableMatrixTags () const |
auto & | getWritableCoupledVariables () const |
bool | hasWritableCoupledVariables () const |
const ADVariableValue * | getADDefaultValue (const std::string &var_name) const |
const ADVectorVariableValue * | getADDefaultVectorValue (const std::string &var_name) const |
const ADVariableGradient & | getADDefaultGradient () const |
const ADVectorVariableGradient & | getADDefaultVectorGradient () const |
const ADVariableSecond & | getADDefaultSecond () const |
const GenericMaterialProperty< T, is_ad > & | getGenericMaterialProperty (const std::string &name, MaterialData &material_data, const unsigned int state=0) |
const GenericMaterialProperty< T, is_ad > & | getGenericMaterialProperty (const std::string &name, const unsigned int state=0) |
const GenericMaterialProperty< T, is_ad > & | getGenericMaterialProperty (const std::string &name, const unsigned int state=0) |
const MaterialProperty< T > & | getMaterialProperty (const std::string &name, MaterialData &material_data, const unsigned int state=0) |
const MaterialProperty< T > & | getMaterialProperty (const std::string &name, const unsigned int state=0) |
const MaterialProperty< T > & | getMaterialProperty (const std::string &name, const unsigned int state=0) |
const ADMaterialProperty< T > & | getADMaterialProperty (const std::string &name, MaterialData &material_data) |
const ADMaterialProperty< T > & | getADMaterialProperty (const std::string &name) |
const ADMaterialProperty< T > & | getADMaterialProperty (const std::string &name) |
const MaterialProperty< T > & | getMaterialPropertyOld (const std::string &name, MaterialData &material_data) |
const MaterialProperty< T > & | getMaterialPropertyOld (const std::string &name) |
const MaterialProperty< T > & | getMaterialPropertyOld (const std::string &name) |
const MaterialProperty< T > & | getMaterialPropertyOlder (const std::string &name, MaterialData &material_data) |
const MaterialProperty< T > & | getMaterialPropertyOlder (const std::string &name) |
const MaterialProperty< T > & | getMaterialPropertyOlder (const std::string &name) |
const GenericMaterialProperty< T, is_ad > & | getGenericMaterialPropertyByName (const MaterialPropertyName &name, MaterialData &material_data, const unsigned int state) |
const GenericMaterialProperty< T, is_ad > & | getGenericMaterialPropertyByName (const std::string &name, const unsigned int state=0) |
const GenericMaterialProperty< T, is_ad > & | getGenericMaterialPropertyByName (const MaterialPropertyName &name, const unsigned int state=0) |
const GenericMaterialProperty< T, is_ad > & | getGenericMaterialPropertyByName (const std::string &name, const unsigned int state=0) |
const GenericMaterialProperty< T, is_ad > & | getGenericMaterialPropertyByName (const MaterialPropertyName &name, const unsigned int state=0) |
const MaterialProperty< T > & | getMaterialPropertyByName (const MaterialPropertyName &name, MaterialData &material_data, const unsigned int state=0) |
const MaterialProperty< T > & | getMaterialPropertyByName (const std::string &prop_name, const unsigned int state=0) |
const MaterialProperty< T > & | getMaterialPropertyByName (const MaterialPropertyName &name, const unsigned int state=0) |
const MaterialProperty< T > & | getMaterialPropertyByName (const std::string &prop_name, const unsigned int state=0) |
const MaterialProperty< T > & | getMaterialPropertyByName (const MaterialPropertyName &name, const unsigned int state=0) |
const ADMaterialProperty< T > & | getADMaterialPropertyByName (const MaterialPropertyName &name, MaterialData &material_data) |
const ADMaterialProperty< T > & | getADMaterialPropertyByName (const std::string &prop_name) |
const ADMaterialProperty< T > & | getADMaterialPropertyByName (const MaterialPropertyName &name) |
const ADMaterialProperty< T > & | getADMaterialPropertyByName (const std::string &prop_name) |
const ADMaterialProperty< T > & | getADMaterialPropertyByName (const MaterialPropertyName &name) |
const MaterialProperty< T > & | getMaterialPropertyOldByName (const MaterialPropertyName &name, MaterialData &material_data) |
const MaterialProperty< T > & | getMaterialPropertyOldByName (const std::string &prop_name) |
const MaterialProperty< T > & | getMaterialPropertyOldByName (const MaterialPropertyName &name) |
const MaterialProperty< T > & | getMaterialPropertyOldByName (const std::string &prop_name) |
const MaterialProperty< T > & | getMaterialPropertyOldByName (const MaterialPropertyName &name) |
const MaterialProperty< T > & | getMaterialPropertyOlderByName (const MaterialPropertyName &name, MaterialData &material_data) |
const MaterialProperty< T > & | getMaterialPropertyOlderByName (const std::string &prop_name) |
const MaterialProperty< T > & | getMaterialPropertyOlderByName (const MaterialPropertyName &name) |
const MaterialProperty< T > & | getMaterialPropertyOlderByName (const std::string &prop_name) |
const MaterialProperty< T > & | getMaterialPropertyOlderByName (const MaterialPropertyName &name) |
std::pair< const MaterialProperty< T > *, std::set< SubdomainID > > | getBlockMaterialProperty (const MaterialPropertyName &name) |
std::set< SubdomainID > | getMaterialPropertyBlocks (const std::string &name) |
std::vector< SubdomainName > | getMaterialPropertyBlockNames (const std::string &name) |
std::set< BoundaryID > | getMaterialPropertyBoundaryIDs (const std::string &name) |
std::vector< BoundaryName > | getMaterialPropertyBoundaryNames (const std::string &name) |
void | checkBlockAndBoundaryCompatibility (std::shared_ptr< MaterialBase > discrete) |
std::unordered_map< SubdomainID, std::vector< MaterialBase *> > | buildRequiredMaterials (bool allow_stateful=true) |
void | statefulPropertiesAllowed (bool) |
bool | getMaterialPropertyCalled () const |
const GenericMaterialProperty< T, is_ad > & | getPossiblyConstantGenericMaterialPropertyByName (const MaterialPropertyName &prop_name, MaterialData &material_data, const unsigned int state) |
const GenericOptionalMaterialProperty< T, is_ad > & | getGenericOptionalMaterialProperty (const std::string &name, const unsigned int state=0) |
const GenericOptionalMaterialProperty< T, is_ad > & | getGenericOptionalMaterialProperty (const std::string &name, const unsigned int state=0) |
const OptionalMaterialProperty< T > & | getOptionalMaterialProperty (const std::string &name, const unsigned int state=0) |
const OptionalMaterialProperty< T > & | getOptionalMaterialProperty (const std::string &name, const unsigned int state=0) |
const OptionalADMaterialProperty< T > & | getOptionalADMaterialProperty (const std::string &name) |
const OptionalADMaterialProperty< T > & | getOptionalADMaterialProperty (const std::string &name) |
const OptionalMaterialProperty< T > & | getOptionalMaterialPropertyOld (const std::string &name) |
const OptionalMaterialProperty< T > & | getOptionalMaterialPropertyOld (const std::string &name) |
const OptionalMaterialProperty< T > & | getOptionalMaterialPropertyOlder (const std::string &name) |
const OptionalMaterialProperty< T > & | getOptionalMaterialPropertyOlder (const std::string &name) |
MaterialProperty< T > & | declarePropertyByName (const std::string &prop_name) |
MaterialProperty< T > & | declarePropertyByName (const std::string &prop_name) |
MaterialProperty< T > & | declareProperty (const std::string &name) |
MaterialProperty< T > & | declareProperty (const std::string &name) |
ADMaterialProperty< T > & | declareADPropertyByName (const std::string &prop_name) |
ADMaterialProperty< T > & | declareADPropertyByName (const std::string &prop_name) |
ADMaterialProperty< T > & | declareADProperty (const std::string &name) |
ADMaterialProperty< T > & | declareADProperty (const std::string &name) |
auto & | declareGenericProperty (const std::string &prop_name) |
auto & | declareGenericProperty (const std::string &prop_name) |
GenericMaterialProperty< T, is_ad > & | declareGenericPropertyByName (const std::string &prop_name) |
GenericMaterialProperty< T, is_ad > & | declareGenericPropertyByName (const std::string &prop_name) |
const Distribution & | getDistribution (const std::string &name) const |
const T & | getDistribution (const std::string &name) const |
const Distribution & | getDistribution (const std::string &name) const |
const T & | getDistribution (const std::string &name) const |
const Distribution & | getDistributionByName (const DistributionName &name) const |
const T & | getDistributionByName (const std::string &name) const |
const Distribution & | getDistributionByName (const DistributionName &name) const |
const T & | getDistributionByName (const std::string &name) const |
bool | hasUserObject (const std::string ¶m_name) const |
bool | hasUserObject (const std::string ¶m_name) const |
bool | hasUserObject (const std::string ¶m_name) const |
bool | hasUserObject (const std::string ¶m_name) const |
bool | hasUserObjectByName (const UserObjectName &object_name) const |
bool | hasUserObjectByName (const UserObjectName &object_name) const |
bool | hasUserObjectByName (const UserObjectName &object_name) const |
bool | hasUserObjectByName (const UserObjectName &object_name) const |
const PostprocessorValue & | getPostprocessorValue (const std::string ¶m_name, const unsigned int index=0) const |
const PostprocessorValue & | getPostprocessorValue (const std::string ¶m_name, const unsigned int index=0) const |
const PostprocessorValue & | getPostprocessorValueOld (const std::string ¶m_name, const unsigned int index=0) const |
const PostprocessorValue & | getPostprocessorValueOld (const std::string ¶m_name, const unsigned int index=0) const |
const PostprocessorValue & | getPostprocessorValueOlder (const std::string ¶m_name, const unsigned int index=0) const |
const PostprocessorValue & | getPostprocessorValueOlder (const std::string ¶m_name, const unsigned int index=0) const |
virtual const PostprocessorValue & | getPostprocessorValueByName (const PostprocessorName &name) const |
virtual const PostprocessorValue & | getPostprocessorValueByName (const PostprocessorName &name) const |
const PostprocessorValue & | getPostprocessorValueOldByName (const PostprocessorName &name) const |
const PostprocessorValue & | getPostprocessorValueOldByName (const PostprocessorName &name) const |
const PostprocessorValue & | getPostprocessorValueOlderByName (const PostprocessorName &name) const |
const PostprocessorValue & | getPostprocessorValueOlderByName (const PostprocessorName &name) const |
bool | isVectorPostprocessorDistributed (const std::string ¶m_name) const |
bool | isVectorPostprocessorDistributed (const std::string ¶m_name) const |
bool | isVectorPostprocessorDistributedByName (const VectorPostprocessorName &name) const |
bool | isVectorPostprocessorDistributedByName (const VectorPostprocessorName &name) const |
bool | hasMaterialProperty (const std::string &name) |
bool | hasMaterialProperty (const std::string &name) |
bool | hasMaterialPropertyByName (const std::string &name) |
bool | hasMaterialPropertyByName (const std::string &name) |
bool | hasADMaterialProperty (const std::string &name) |
bool | hasADMaterialProperty (const std::string &name) |
bool | hasADMaterialPropertyByName (const std::string &name) |
bool | hasADMaterialPropertyByName (const std::string &name) |
bool | hasGenericMaterialProperty (const std::string &name) |
bool | hasGenericMaterialProperty (const std::string &name) |
bool | hasGenericMaterialPropertyByName (const std::string &name) |
bool | hasGenericMaterialPropertyByName (const std::string &name) |
PenetrationLocator & | getPenetrationLocator (const BoundaryName &primary, const BoundaryName &secondary, Order order) |
PenetrationLocator & | getQuadraturePenetrationLocator (const BoundaryName &primary, const BoundaryName &secondary, Order order) |
NearestNodeLocator & | getNearestNodeLocator (const BoundaryName &primary, const BoundaryName &secondary) |
NearestNodeLocator & | getQuadratureNearestNodeLocator (const BoundaryName &primary, const BoundaryName &secondary) |
bool | requiresGeometricSearch () const |
const Parallel::Communicator & | comm () const |
processor_id_type | n_processors () const |
processor_id_type | processor_id () const |
void | resetQpProperties () final |
Retained as empty methods to avoid a warning from Material.C in framework. These methods are unused in all inheriting classes and should not be overwritten. More... | |
void | resetProperties () final |
Static Public Member Functions | |
static InputParameters | validParams () |
static std::deque< MaterialBase *> | buildRequiredMaterials (const Consumers &mat_consumers, const std::vector< std::shared_ptr< MaterialBase >> &mats, const bool allow_stateful) |
static bool | restricted (const std::set< BoundaryID > &ids) |
static void | sort (typename std::vector< T > &vector) |
static void | sortDFS (typename std::vector< T > &vector) |
static void | cyclicDependencyError (CyclicDependencyException< T2 > &e, const std::string &header) |
static std::string | deduceFunctorName (const std::string &name, const InputParameters ¶ms) |
Public Attributes | |
const Elem *const & | _current_elem |
Real & | _dt |
const MooseArray< Point > & | _q_point |
unsigned int | _qp |
ALL | |
ANY | |
const ConsoleStream | _console |
Static Public Attributes | |
static constexpr PropertyValue::id_type | default_property_id |
static constexpr PropertyValue::id_type | zero_property_id |
Protected Types | |
enum | StressReturnType { StressReturnType::nothing_special, StressReturnType::no_compression, StressReturnType::no_tension } |
This allows some simplification in the return-map process. More... | |
enum | QP_Data_Type |
Protected Member Functions | |
virtual void | initQpStatefulProperties () override |
virtual void | initializeReturnProcess () override |
Derived classes may use this to perform calculations before any return-map process is performed, for instance, to initialize variables. More... | |
virtual void | finalizeReturnProcess (const RankTwoTensor &rotation_increment) override |
Derived classes may use this to perform calculations after the return-map process has completed successfully in stress_param space but before the returned stress tensor has been calculcated. More... | |
virtual void | preReturnMap (Real p_trial, Real q_trial, const RankTwoTensor &stress_trial, const std::vector< Real > &intnl_old, const std::vector< Real > &yf, const RankFourTensor &Eijkl) override |
Derived classes may employ this function to record stuff or do other computations prior to the return-mapping algorithm. More... | |
virtual void | computePQ (const RankTwoTensor &stress, Real &p, Real &q) const override |
Computes p and q, given stress. More... | |
virtual void | setEppEqq (const RankFourTensor &Eijkl, Real &Epp, Real &Eqq) const override |
Set Epp and Eqq based on the elasticity tensor Derived classes must override this. More... | |
virtual void | setStressAfterReturn (const RankTwoTensor &stress_trial, Real p_ok, Real q_ok, Real gaE, const std::vector< Real > &intnl, const yieldAndFlow &smoothed_q, const RankFourTensor &Eijkl, RankTwoTensor &stress) const override |
Sets stress from the admissible parameters. More... | |
virtual void | consistentTangentOperator (const RankTwoTensor &stress_trial, Real p_trial, Real q_trial, const RankTwoTensor &stress, Real p, Real q, Real gaE, const yieldAndFlow &smoothed_q, const RankFourTensor &Eijkl, bool compute_full_tangent_operator, RankFourTensor &cto) const override |
Calculates the consistent tangent operator. More... | |
virtual RankTwoTensor | dpdstress (const RankTwoTensor &stress) const override |
d(p)/d(stress) Derived classes must override this More... | |
virtual RankTwoTensor | dqdstress (const RankTwoTensor &stress) const override |
d(q)/d(stress) Derived classes must override this More... | |
virtual RankFourTensor | d2qdstress2 (const RankTwoTensor &stress) const override |
d2(q)/d(stress)/d(stress) Derived classes must override this More... | |
virtual void | yieldFunctionValues (Real p, Real q, const std::vector< Real > &intnl, std::vector< Real > &yf) const override |
Computes the values of the yield functions, given p, q and intnl parameters. More... | |
virtual void | computeAllQ (Real p, Real q, const std::vector< Real > &intnl, std::vector< yieldAndFlow > &all_q) const override |
Completely fills all_q with correct values. More... | |
virtual void | initializeVars (Real p_trial, Real q_trial, const std::vector< Real > &intnl_old, Real &p, Real &q, Real &gaE, std::vector< Real > &intnl) const override |
Sets (p, q, gaE, intnl) at "good guesses" of the solution to the Return-Map algorithm. More... | |
virtual void | setIntnlValues (Real p_trial, Real q_trial, Real p, Real q, const std::vector< Real > &intnl_old, std::vector< Real > &intnl) const override |
Sets the internal parameters based on the trial values of p and q, their current values, and the old values of the internal parameters. More... | |
virtual void | setIntnlDerivatives (Real p_trial, Real q_trial, Real p, Real q, const std::vector< Real > &intnl, std::vector< std::vector< Real >> &dintnl) const override |
Sets the derivatives of internal parameters, based on the trial values of p and q, their current values, and the old values of the internal parameters. More... | |
virtual RankFourTensor | d2pdstress2 (const RankTwoTensor &stress) const override |
d2(p)/d(stress)/d(stress) Derived classes must override this More... | |
void | yieldFunctionValuesV (const std::vector< Real > &stress_params, const std::vector< Real > &intnl, std::vector< Real > &yf) const override |
Computes the values of the yield functions, given stress_params and intnl parameters. More... | |
void | computeAllQV (const std::vector< Real > &stress_params, const std::vector< Real > &intnl, std::vector< yieldAndFlow > &all_q) const override |
Completely fills all_q with correct values. More... | |
void | preReturnMapV (const std::vector< Real > &trial_stress_params, const RankTwoTensor &stress_trial, const std::vector< Real > &intnl_old, const std::vector< Real > &yf, const RankFourTensor &Eijkl) override |
Derived classes may employ this function to record stuff or do other computations prior to the return-mapping algorithm. More... | |
void | initializeVarsV (const std::vector< Real > &trial_stress_params, const std::vector< Real > &intnl_old, std::vector< Real > &stress_params, Real &gaE, std::vector< Real > &intnl) const override |
Sets (stress_params, intnl) at "good guesses" of the solution to the Return-Map algorithm. More... | |
void | setIntnlValuesV (const std::vector< Real > &trial_stress_params, const std::vector< Real > ¤t_stress_params, const std::vector< Real > &intnl_old, std::vector< Real > &intnl) const override |
Sets the internal parameters based on the trial values of stress_params, their current values, and the old values of the internal parameters. More... | |
virtual void | setIntnlDerivativesV (const std::vector< Real > &trial_stress_params, const std::vector< Real > ¤t_stress_params, const std::vector< Real > &intnl, std::vector< std::vector< Real >> &dintnl) const override |
Sets the derivatives of internal parameters, based on the trial values of stress_params, their current values, and the current values of the internal parameters. More... | |
virtual void | computeStressParams (const RankTwoTensor &stress, std::vector< Real > &stress_params) const override |
Computes stress_params, given stress. More... | |
virtual void | setEffectiveElasticity (const RankFourTensor &Eijkl) override |
Sets _Eij and _En and _Cij. More... | |
void | setStressAfterReturnV (const RankTwoTensor &stress_trial, const std::vector< Real > &stress_params, Real gaE, const std::vector< Real > &intnl, const yieldAndFlow &smoothed_q, const RankFourTensor &Eijkl, RankTwoTensor &stress) const override |
Sets stress from the admissible parameters. More... | |
void | setInelasticStrainIncrementAfterReturn (const RankTwoTensor &stress_trial, Real gaE, const yieldAndFlow &smoothed_q, const RankFourTensor &elasticity_tensor, const RankTwoTensor &returned_stress, RankTwoTensor &inelastic_strain_increment) const override |
Sets inelastic strain increment from the returned configuration This is called after the return-map process has completed successfully in stress_param space, just after finalizeReturnProcess has been called. More... | |
void | consistentTangentOperatorV (const RankTwoTensor &stress_trial, const std::vector< Real > &trial_stress_params, const RankTwoTensor &stress, const std::vector< Real > &stress_params, Real gaE, const yieldAndFlow &smoothed_q, const RankFourTensor &Eijkl, bool compute_full_tangent_operator, const std::vector< std::vector< Real >> &dvar_dtrial, RankFourTensor &cto) override |
Calculates the consistent tangent operator. More... | |
virtual std::vector< RankTwoTensor > | dstress_param_dstress (const RankTwoTensor &stress) const override |
d(stress_param[i])/d(stress) at given stress More... | |
virtual std::vector< RankFourTensor > | d2stress_param_dstress (const RankTwoTensor &stress) const override |
d2(stress_param[i])/d(stress)/d(stress) at given stress More... | |
virtual void | updateState (RankTwoTensor &strain_increment, RankTwoTensor &inelastic_strain_increment, const RankTwoTensor &rotation_increment, RankTwoTensor &stress_new, const RankTwoTensor &stress_old, const RankFourTensor &elasticity_tensor, const RankTwoTensor &elastic_strain_old, bool compute_full_tangent_operator, RankFourTensor &tangent_operator) override |
virtual void | updateState (GR2 &strain_increment, GR2 &inelastic_strain_increment, const GR2 &rotation_increment, GR2 &stress_new, const RankTwoTensor &stress_old, const GR4 &elasticity_tensor, const RankTwoTensor &elastic_strain_old, bool compute_full_tangent_operator=false, RankFourTensor &tangent_operator=StressUpdateBaseTempl< is_ad >::_identityTensor) |
Given a strain increment that results in a trial stress, perform some procedure (such as an iterative return-mapping process) to produce an admissible stress, an elastic strain increment and an inelastic strain increment. More... | |
virtual void | propagateQpStatefulProperties () override |
If updateState is not called during a timestep, this will be. More... | |
virtual TangentCalculationMethod | getTangentCalculationMethod () override |
Real | yieldF (const std::vector< Real > &stress_params, const std::vector< Real > &intnl) const |
Computes the smoothed yield function. More... | |
Real | yieldF (const std::vector< Real > &yfs) const |
Computes the smoothed yield function. More... | |
Real | ismoother (Real f_diff) const |
Smooths yield functions. More... | |
Real | smoother (Real f_diff) const |
Derivative of ismoother. More... | |
Real | dsmoother (Real f_diff) const |
Derivative of smoother. More... | |
yieldAndFlow | smoothAllQuantities (const std::vector< Real > &stress_params, const std::vector< Real > &intnl) const |
Calculates all yield functions and derivatives, and then performs the smoothing scheme. More... | |
int | lineSearch (Real &res2, std::vector< Real > &stress_params, Real &gaE, const std::vector< Real > &trial_stress_params, yieldAndFlow &smoothed_q, const std::vector< Real > &intnl_ok, std::vector< Real > &intnl, std::vector< Real > &rhs, Real &linesearch_needed) const |
Performs a line-search to find stress_params and gaE Upon entry: More... | |
int | nrStep (const yieldAndFlow &smoothed_q, const std::vector< Real > &trial_stress_params, const std::vector< Real > &stress_params, const std::vector< Real > &intnl, Real gaE, std::vector< Real > &rhs) const |
Performs a Newton-Raphson step to attempt to zero rhs Upon return, rhs will contain the solution. More... | |
Real | calculateRes2 (const std::vector< Real > &rhs) const |
Calculates the residual-squared for the Newton-Raphson + line-search. More... | |
void | calculateRHS (const std::vector< Real > &trial_stress_params, const std::vector< Real > &stress_params, Real gaE, const yieldAndFlow &smoothed_q, std::vector< Real > &rhs) const |
Calculates the RHS in the following 0 = rhs[0] = S[0] - S[0]^trial + ga * E[0, j] * dg/dS[j] 0 = rhs[1] = S[1] - S[1]^trial + ga * E[1, j] * dg/dS[j] ... More... | |
void | dnRHSdVar (const yieldAndFlow &smoothed_q, const std::vector< std::vector< Real >> &dintnl, const std::vector< Real > &stress_params, Real gaE, std::vector< double > &jac) const |
Derivative of -RHS with respect to the stress_params and gaE, placed into an array ready for solving the linear system using LAPACK gsev. More... | |
virtual void | errorHandler (const std::string &message) const |
Performs any necessary cleaning-up, then throw MooseException(message) More... | |
void | dVardTrial (bool elastic_only, const std::vector< Real > &trial_stress_params, const std::vector< Real > &stress_params, Real gaE, const std::vector< Real > &intnl, const yieldAndFlow &smoothed_q, Real step_size, bool compute_full_tangent_operator, std::vector< std::vector< Real >> &dvar_dtrial) const |
Calculates derivatives of the stress_params and gaE with repect to the trial values of the stress_params for the (sub)strain increment. More... | |
bool | precisionLoss (const std::vector< Real > &solution, const std::vector< Real > &stress_params, Real gaE) const |
Check whether precision loss has occurred. More... | |
virtual void | checkMaterialProperty (const std::string &name, const unsigned int state) override |
virtual const MaterialData & | materialData () const override |
virtual MaterialData & | materialData () override |
virtual const QBase & | qRule () const override |
virtual void | computeQpProperties () |
virtual const FEProblemBase & | miProblem () const |
virtual FEProblemBase & | miProblem () |
bool | isPropertyActive (const unsigned int prop_id) const |
void | registerPropName (const std::string &prop_name, bool is_get, const unsigned int state) |
void | checkExecutionStage () |
void | checkExecutionStage () |
virtual bool | hasBlockMaterialPropertyHelper (const std::string &prop_name) |
void | initializeBlockRestrictable (const MooseObject *moose_object) |
Moose::CoordinateSystemType | getBlockCoordSystem () |
bool | hasBoundaryMaterialPropertyHelper (const std::string &prop_name) const |
void | addMooseVariableDependency (MooseVariableFieldBase *var) |
void | addMooseVariableDependency (const std::vector< MooseVariableFieldBase * > &vars) |
bool | isCoupledScalar (const std::string &var_name, unsigned int i=0) const |
unsigned int | coupledScalarComponents (const std::string &var_name) const |
unsigned int | coupledScalar (const std::string &var_name, unsigned int comp=0) const |
Order | coupledScalarOrder (const std::string &var_name, unsigned int comp=0) const |
const VariableValue & | coupledScalarValue (const std::string &var_name, unsigned int comp=0) const |
const ADVariableValue & | adCoupledScalarValue (const std::string &var_name, unsigned int comp=0) const |
const GenericVariableValue< is_ad > & | coupledGenericScalarValue (const std::string &var_name, unsigned int comp=0) const |
const GenericVariableValue< false > & | coupledGenericScalarValue (const std::string &var_name, const unsigned int comp) const |
const GenericVariableValue< true > & | coupledGenericScalarValue (const std::string &var_name, const unsigned int comp) const |
const VariableValue & | coupledVectorTagScalarValue (const std::string &var_name, TagID tag, unsigned int comp=0) const |
const VariableValue & | coupledMatrixTagScalarValue (const std::string &var_name, TagID tag, unsigned int comp=0) const |
const VariableValue & | coupledScalarValueOld (const std::string &var_name, unsigned int comp=0) const |
const VariableValue & | coupledScalarValueOlder (const std::string &var_name, unsigned int comp=0) const |
const VariableValue & | coupledScalarDot (const std::string &var_name, unsigned int comp=0) const |
const ADVariableValue & | adCoupledScalarDot (const std::string &var_name, unsigned int comp=0) const |
const VariableValue & | coupledScalarDotDot (const std::string &var_name, unsigned int comp=0) const |
const VariableValue & | coupledScalarDotOld (const std::string &var_name, unsigned int comp=0) const |
const VariableValue & | coupledScalarDotDotOld (const std::string &var_name, unsigned int comp=0) const |
const VariableValue & | coupledScalarDotDu (const std::string &var_name, unsigned int comp=0) const |
const VariableValue & | coupledScalarDotDotDu (const std::string &var_name, unsigned int comp=0) const |
const MooseVariableScalar * | getScalarVar (const std::string &var_name, unsigned int comp) const |
virtual void | addUserObjectDependencyHelper (const UserObject &) const |
Moose::StateArg | determineState () const |
virtual void | addPostprocessorDependencyHelper (const PostprocessorName &) const |
virtual void | addVectorPostprocessorDependencyHelper (const VectorPostprocessorName &) const |
T & | declareRestartableData (const std::string &data_name, Args &&... args) |
ManagedValue< T > | declareManagedRestartableDataWithContext (const std::string &data_name, void *context, Args &&... args) |
const T & | getRestartableData (const std::string &data_name) const |
T & | declareRestartableDataWithContext (const std::string &data_name, void *context, Args &&... args) |
T & | declareRecoverableData (const std::string &data_name, Args &&... args) |
T & | declareRestartableDataWithObjectName (const std::string &data_name, const std::string &object_name, Args &&... args) |
T & | declareRestartableDataWithObjectNameWithContext (const std::string &data_name, const std::string &object_name, void *context, Args &&... args) |
std::string | restartableName (const std::string &data_name) const |
std::string | deduceFunctorName (const std::string &name) const |
const Moose::Functor< T > & | getFunctor (const std::string &name) |
const Moose::Functor< T > & | getFunctor (const std::string &name, THREAD_ID tid) |
const Moose::Functor< T > & | getFunctor (const std::string &name, SubProblem &subproblem) |
const Moose::Functor< T > & | getFunctor (const std::string &name, SubProblem &subproblem, THREAD_ID tid) |
bool | isFunctor (const std::string &name) const |
bool | isFunctor (const std::string &name, const SubProblem &subproblem) const |
Moose::ElemArg | makeElemArg (const Elem *elem, bool correct_skewnewss=false) const |
void | checkFunctorSupportsSideIntegration (const std::string &name, bool qp_integration) |
void | flagInvalidSolutionInternal (InvalidSolutionID _invalid_solution_id) const |
InvalidSolutionID | registerInvalidSolutionInternal (const std::string &message) const |
virtual void | coupledCallback (const std::string &, bool) const |
virtual bool | isCoupled (const std::string &var_name, unsigned int i=0) const |
virtual bool | isCoupledConstant (const std::string &var_name) const |
unsigned int | coupledComponents (const std::string &var_name) const |
VariableName | coupledName (const std::string &var_name, unsigned int comp=0) const |
std::vector< VariableName > | coupledNames (const std::string &var_name) const |
virtual unsigned int | coupled (const std::string &var_name, unsigned int comp=0) const |
std::vector< unsigned int > | coupledIndices (const std::string &var_name) const |
virtual const VariableValue & | coupledValue (const std::string &var_name, unsigned int comp=0) const |
std::vector< const VariableValue *> | coupledValues (const std::string &var_name) const |
std::vector< const VectorVariableValue *> | coupledVectorValues (const std::string &var_name) const |
const GenericVariableValue< is_ad > & | coupledGenericValue (const std::string &var_name, unsigned int comp=0) const |
const GenericVariableValue< false > & | coupledGenericValue (const std::string &var_name, unsigned int comp) const |
const GenericVariableValue< true > & | coupledGenericValue (const std::string &var_name, unsigned int comp) const |
std::vector< const GenericVariableValue< is_ad > *> | coupledGenericValues (const std::string &var_name) const |
std::vector< const GenericVariableValue< false > *> | coupledGenericValues (const std::string &var_name) const |
std::vector< const GenericVariableValue< true > *> | coupledGenericValues (const std::string &var_name) const |
const GenericVariableValue< is_ad > & | coupledGenericDofValue (const std::string &var_name, unsigned int comp=0) const |
const GenericVariableValue< false > & | coupledGenericDofValue (const std::string &var_name, unsigned int comp) const |
const GenericVariableValue< true > & | coupledGenericDofValue (const std::string &var_name, unsigned int comp) const |
virtual const VariableValue & | coupledValueLower (const std::string &var_name, unsigned int comp=0) const |
const ADVariableValue & | adCoupledValue (const std::string &var_name, unsigned int comp=0) const |
std::vector< const ADVariableValue *> | adCoupledValues (const std::string &var_name) const |
const ADVariableValue & | adCoupledLowerValue (const std::string &var_name, unsigned int comp=0) const |
const ADVectorVariableValue & | adCoupledVectorValue (const std::string &var_name, unsigned int comp=0) const |
std::vector< const ADVectorVariableValue *> | adCoupledVectorValues (const std::string &var_name) const |
virtual const VariableValue & | coupledVectorTagValue (const std::string &var_names, TagID tag, unsigned int index=0) const |
virtual const VariableValue & | coupledVectorTagValue (const std::string &var_names, const std::string &tag_name, unsigned int index=0) const |
std::vector< const VariableValue *> | coupledVectorTagValues (const std::string &var_names, TagID tag) const |
std::vector< const VariableValue *> | coupledVectorTagValues (const std::string &var_names, const std::string &tag_name) const |
virtual const ArrayVariableValue & | coupledVectorTagArrayValue (const std::string &var_names, TagID tag, unsigned int index=0) const |
virtual const ArrayVariableValue & | coupledVectorTagArrayValue (const std::string &var_names, const std::string &tag_name, unsigned int index=0) const |
std::vector< const ArrayVariableValue *> | coupledVectorTagArrayValues (const std::string &var_names, TagID tag) const |
std::vector< const ArrayVariableValue *> | coupledVectorTagArrayValues (const std::string &var_names, const std::string &tag_name) const |
virtual const VariableGradient & | coupledVectorTagGradient (const std::string &var_names, TagID tag, unsigned int index=0) const |
virtual const VariableGradient & | coupledVectorTagGradient (const std::string &var_names, const std::string &tag_name, unsigned int index=0) const |
std::vector< const VariableGradient *> | coupledVectorTagGradients (const std::string &var_names, TagID tag) const |
std::vector< const VariableGradient *> | coupledVectorTagGradients (const std::string &var_names, const std::string &tag_name) const |
virtual const ArrayVariableGradient & | coupledVectorTagArrayGradient (const std::string &var_names, TagID tag, unsigned int index=0) const |
virtual const ArrayVariableGradient & | coupledVectorTagArrayGradient (const std::string &var_names, const std::string &tag_name, unsigned int index=0) const |
std::vector< const ArrayVariableGradient *> | coupledVectorTagArrayGradients (const std::string &var_names, TagID tag) const |
std::vector< const ArrayVariableGradient *> | coupledVectorTagArrayGradients (const std::string &var_names, const std::string &tag_name) const |
virtual const VariableValue & | coupledVectorTagDofValue (const std::string &var_name, TagID tag, unsigned int index=0) const |
virtual const VariableValue & | coupledVectorTagDofValue (const std::string &var_names, const std::string &tag_name, unsigned int index=0) const |
const ArrayVariableValue & | coupledVectorTagArrayDofValue (const std::string &var_name, const std::string &tag_name, unsigned int comp=0) const |
std::vector< const VariableValue *> | coupledVectorTagDofValues (const std::string &var_names, TagID tag) const |
std::vector< const VariableValue *> | coupledVectorTagDofValues (const std::string &var_names, const std::string &tag_name) const |
virtual const VariableValue & | coupledMatrixTagValue (const std::string &var_names, TagID tag, unsigned int index=0) const |
virtual const VariableValue & | coupledMatrixTagValue (const std::string &var_names, const std::string &tag_name, unsigned int index=0) const |
std::vector< const VariableValue *> | coupledMatrixTagValues (const std::string &var_names, TagID tag) const |
std::vector< const VariableValue *> | coupledMatrixTagValues (const std::string &var_names, const std::string &tag_name) const |
virtual const VectorVariableValue & | coupledVectorValue (const std::string &var_name, unsigned int comp=0) const |
virtual const ArrayVariableValue & | coupledArrayValue (const std::string &var_name, unsigned int comp=0) const |
std::vector< const ArrayVariableValue *> | coupledArrayValues (const std::string &var_name) const |
MooseWritableVariable & | writableVariable (const std::string &var_name, unsigned int comp=0) |
virtual VariableValue & | writableCoupledValue (const std::string &var_name, unsigned int comp=0) |
void | checkWritableVar (MooseWritableVariable *var) |
virtual const VariableValue & | coupledValueOld (const std::string &var_name, unsigned int comp=0) const |
std::vector< const VariableValue *> | coupledValuesOld (const std::string &var_name) const |
virtual const VariableValue & | coupledValueOlder (const std::string &var_name, unsigned int comp=0) const |
std::vector< const VariableValue *> | coupledValuesOlder (const std::string &var_name) const |
virtual const VariableValue & | coupledValuePreviousNL (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableValue & | coupledVectorValueOld (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableValue & | coupledVectorValueOlder (const std::string &var_name, unsigned int comp=0) const |
virtual const ArrayVariableValue & | coupledArrayValueOld (const std::string &var_name, unsigned int comp=0) const |
virtual const ArrayVariableValue & | coupledArrayValueOlder (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableGradient & | coupledGradient (const std::string &var_name, unsigned int comp=0) const |
std::vector< const VariableGradient *> | coupledGradients (const std::string &var_name) const |
const ADVariableGradient & | adCoupledGradient (const std::string &var_name, unsigned int comp=0) const |
const ADVariableGradient & | adCoupledGradientDot (const std::string &var_name, unsigned int comp=0) const |
std::vector< const ADVariableGradient *> | adCoupledGradients (const std::string &var_name) const |
const GenericVariableGradient< is_ad > & | coupledGenericGradient (const std::string &var_name, unsigned int comp=0) const |
const GenericVariableGradient< false > & | coupledGenericGradient (const std::string &var_name, unsigned int comp) const |
const GenericVariableGradient< true > & | coupledGenericGradient (const std::string &var_name, unsigned int comp) const |
std::vector< const GenericVariableGradient< is_ad > *> | coupledGenericGradients (const std::string &var_name) const |
std::vector< const GenericVariableGradient< false > *> | coupledGenericGradients (const std::string &var_name) const |
std::vector< const GenericVariableGradient< true > *> | coupledGenericGradients (const std::string &var_name) const |
const ADVectorVariableGradient & | adCoupledVectorGradient (const std::string &var_name, unsigned int comp=0) const |
const ADVariableSecond & | adCoupledSecond (const std::string &var_name, unsigned int comp=0) const |
const ADVectorVariableSecond & | adCoupledVectorSecond (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableGradient & | coupledGradientOld (const std::string &var_name, unsigned int comp=0) const |
std::vector< const VariableGradient *> | coupledGradientsOld (const std::string &var_name) const |
virtual const VariableGradient & | coupledGradientOlder (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableGradient & | coupledGradientPreviousNL (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableGradient & | coupledGradientDot (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableGradient & | coupledGradientDotDot (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableGradient & | coupledVectorGradient (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableGradient & | coupledVectorGradientOld (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableGradient & | coupledVectorGradientOlder (const std::string &var_name, unsigned int comp=0) const |
virtual const ArrayVariableGradient & | coupledArrayGradient (const std::string &var_name, unsigned int comp=0) const |
virtual const ArrayVariableGradient & | coupledArrayGradientOld (const std::string &var_name, unsigned int comp=0) const |
virtual const ArrayVariableGradient & | coupledArrayGradientOlder (const std::string &var_name, unsigned int comp=0) const |
virtual const ArrayVariableGradient & | coupledArrayGradientDot (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableCurl & | coupledCurl (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableCurl & | coupledCurlOld (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableCurl & | coupledCurlOlder (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableDivergence & | coupledDiv (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableDivergence & | coupledDivOld (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableDivergence & | coupledDivOlder (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableSecond & | coupledSecond (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableSecond & | coupledSecondOld (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableSecond & | coupledSecondOlder (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableSecond & | coupledSecondPreviousNL (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableValue & | coupledDot (const std::string &var_name, unsigned int comp=0) const |
std::vector< const VariableValue *> | coupledDots (const std::string &var_name) const |
virtual const VariableValue & | coupledDotDot (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableValue & | coupledDotOld (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableValue & | coupledDotDotOld (const std::string &var_name, unsigned int comp=0) const |
const ADVariableValue & | adCoupledDot (const std::string &var_name, unsigned int comp=0) const |
std::vector< const ADVariableValue *> | adCoupledDots (const std::string &var_name) const |
const ADVariableValue & | adCoupledDotDot (const std::string &var_name, unsigned int comp=0) const |
const ADVectorVariableValue & | adCoupledVectorDot (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableValue & | coupledVectorDot (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableValue & | coupledVectorDotDot (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableValue & | coupledVectorDotOld (const std::string &var_name, unsigned int comp=0) const |
virtual const VectorVariableValue & | coupledVectorDotDotOld (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableValue & | coupledVectorDotDu (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableValue & | coupledVectorDotDotDu (const std::string &var_name, unsigned int comp=0) const |
virtual const ArrayVariableValue & | coupledArrayDot (const std::string &var_name, unsigned int comp=0) const |
virtual const ArrayVariableValue & | coupledArrayDotDot (const std::string &var_name, unsigned int comp=0) const |
virtual const ArrayVariableValue & | coupledArrayDotOld (const std::string &var_name, unsigned int comp=0) const |
virtual const ArrayVariableValue & | coupledArrayDotDotOld (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableValue & | coupledDotDu (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableValue & | coupledDotDotDu (const std::string &var_name, unsigned int comp=0) const |
const VariableValue & | coupledArrayDotDu (const std::string &var_name, unsigned int comp=0) const |
const T & | coupledNodalValue (const std::string &var_name, unsigned int comp=0) const |
const Moose::ADType< T >::type & | adCoupledNodalValue (const std::string &var_name, unsigned int comp=0) const |
const T & | coupledNodalValueOld (const std::string &var_name, unsigned int comp=0) const |
const T & | coupledNodalValueOlder (const std::string &var_name, unsigned int comp=0) const |
const T & | coupledNodalValuePreviousNL (const std::string &var_name, unsigned int comp=0) const |
const T & | coupledNodalDot (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableValue & | coupledNodalDotDot (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableValue & | coupledNodalDotOld (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableValue & | coupledNodalDotDotOld (const std::string &var_name, unsigned int comp=0) const |
virtual const VariableValue & | coupledDofValues (const std::string &var_name, unsigned int comp=0) const |
std::vector< const VariableValue *> | coupledAllDofValues (const std::string &var_name) const |
virtual const VariableValue & | coupledDofValuesOld (const std::string &var_name, unsigned int comp=0) const |
std::vector< const VariableValue *> | coupledAllDofValuesOld (const std::string &var_name) const |
virtual const VariableValue & | coupledDofValuesOlder (const std::string &var_name, unsigned int comp=0) const |
std::vector< const VariableValue *> | coupledAllDofValuesOlder (const std::string &var_name) const |
virtual const ArrayVariableValue & | coupledArrayDofValues (const std::string &var_name, unsigned int comp=0) const |
virtual const ADVariableValue & | adCoupledDofValues (const std::string &var_name, unsigned int comp=0) const |
const ADVariableValue & | adZeroValue () const |
const ADVariableGradient & | adZeroGradient () const |
const ADVariableSecond & | adZeroSecond () const |
const GenericVariableValue< is_ad > & | genericZeroValue () |
const GenericVariableValue< false > & | genericZeroValue () |
const GenericVariableValue< true > & | genericZeroValue () |
const GenericVariableGradient< is_ad > & | genericZeroGradient () |
const GenericVariableGradient< false > & | genericZeroGradient () |
const GenericVariableGradient< true > & | genericZeroGradient () |
const GenericVariableSecond< is_ad > & | genericZeroSecond () |
const GenericVariableSecond< false > & | genericZeroSecond () |
const GenericVariableSecond< true > & | genericZeroSecond () |
bool | checkVar (const std::string &var_name, unsigned int comp=0, unsigned int comp_bound=0) const |
const MooseVariableFieldBase * | getFEVar (const std::string &var_name, unsigned int comp) const |
const MooseVariableFieldBase * | getFieldVar (const std::string &var_name, unsigned int comp) const |
MooseVariableFieldBase * | getFieldVar (const std::string &var_name, unsigned int comp) |
const T * | getVarHelper (const std::string &var_name, unsigned int comp) const |
T * | getVarHelper (const std::string &var_name, unsigned int comp) |
MooseVariable * | getVar (const std::string &var_name, unsigned int comp) |
const MooseVariable * | getVar (const std::string &var_name, unsigned int comp) const |
VectorMooseVariable * | getVectorVar (const std::string &var_name, unsigned int comp) |
const VectorMooseVariable * | getVectorVar (const std::string &var_name, unsigned int comp) const |
ArrayMooseVariable * | getArrayVar (const std::string &var_name, unsigned int comp) |
const ArrayMooseVariable * | getArrayVar (const std::string &var_name, unsigned int comp) const |
void | validateExecutionerType (const std::string &name, const std::string &fn_name) const |
std::vector< T > | coupledVectorHelper (const std::string &var_name, const Func &func) const |
void | markMatPropRequested (const std::string &) |
MaterialPropertyName | getMaterialPropertyName (const std::string &name) const |
const GenericMaterialProperty< T, is_ad > * | defaultGenericMaterialProperty (const std::string &name) |
const GenericMaterialProperty< T, is_ad > * | defaultGenericMaterialProperty (const std::string &name) |
const MaterialProperty< T > * | defaultMaterialProperty (const std::string &name) |
const MaterialProperty< T > * | defaultMaterialProperty (const std::string &name) |
const ADMaterialProperty< T > * | defaultADMaterialProperty (const std::string &name) |
const ADMaterialProperty< T > * | defaultADMaterialProperty (const std::string &name) |
Protected Attributes | |
RealVectorValue | _n_input |
User-input value of the normal vector to the weak plane. More... | |
MaterialProperty< RealVectorValue > & | _n |
Current value of the normal. More... | |
const MaterialProperty< RealVectorValue > & | _n_old |
Old value of the normal. More... | |
RealTensorValue | _rot_n_to_z |
Rotation matrix that rotates _n to "z". More... | |
RealTensorValue | _rot_z_to_n |
Rotation matrix that rotates "z" to _n. More... | |
RankTwoTensor | _rotated_trial |
Trial stress rotated to the frame where _n points along "z". More... | |
RankFourTensor | _rotated_Eijkl |
Elasticity tensor rotated to the frame where _n points along "z". More... | |
const SolidMechanicsHardeningModel & | _cohesion |
Hardening model for cohesion. More... | |
const SolidMechanicsHardeningModel & | _tan_phi |
Hardening model for tan(phi) More... | |
const SolidMechanicsHardeningModel & | _tan_psi |
Hardening model for tan(psi) More... | |
const SolidMechanicsHardeningModel & | _tstrength |
Hardening model for tensile strength. More... | |
const SolidMechanicsHardeningModel & | _cstrength |
Hardening model for compressive strength. More... | |
const Real | _small_smoother2 |
The cone vertex is smoothed by this amount. More... | |
const bool | _perfect_guess |
Initialize the NR proceedure from a guess coming from perfect plasticity. More... | |
enum CappedWeakPlaneStressUpdate::StressReturnType | _stress_return_type |
Real | _in_trial02 |
trial value of stress(0, 2) More... | |
Real | _in_trial12 |
trial value of stress(1, 2) More... | |
Real | _in_q_trial |
trial value of q More... | |
Real | _p_trial |
Trial value of p. More... | |
Real | _q_trial |
Trial value of q. More... | |
Real | _Epp |
elasticity tensor in p direction More... | |
Real | _Eqq |
elasticity tensor in q direction More... | |
Real | _dgaE_dpt |
derivative of Variable with respect to trial variable (used in consistent-tangent-operator calculation) More... | |
Real | _dgaE_dqt |
derivative of Variable with respect to trial variable (used in consistent-tangent-operator calculation) More... | |
Real | _dp_dpt |
derivative of Variable with respect to trial variable (used in consistent-tangent-operator calculation) More... | |
Real | _dq_dpt |
derivative of Variable with respect to trial variable (used in consistent-tangent-operator calculation) More... | |
Real | _dp_dqt |
derivative of Variable with respect to trial variable (used in consistent-tangent-operator calculation) More... | |
Real | _dq_dqt |
derivative of Variable with respect to trial variable (used in consistent-tangent-operator calculation) More... | |
const unsigned | _num_sp |
Number of stress parameters. More... | |
const std::vector< Real > | _definitely_ok_sp |
An admissible value of stress_params at the initial time. More... | |
std::vector< std::vector< Real > > | _Eij |
E[i, j] in the system of equations to be solved. More... | |
Real | _En |
normalising factor More... | |
std::vector< std::vector< Real > > | _Cij |
_Cij[i, j] * _Eij[j, k] = 1 iff j == k More... | |
const unsigned | _num_yf |
Number of yield functions. More... | |
const unsigned | _num_intnl |
Number of internal parameters. More... | |
const unsigned | _max_nr_its |
Maximum number of Newton-Raphson iterations allowed in the return-map process. More... | |
const bool | _perform_finite_strain_rotations |
Whether to perform finite-strain rotations. More... | |
const Real | _smoothing_tol |
Smoothing tolerance: edges of the yield surface get smoothed by this amount. More... | |
const Real | _smoothing_tol2 |
Square of the smoothing tolerance. More... | |
const Real | _f_tol |
The yield-function tolerance. More... | |
const Real | _f_tol2 |
Square of the yield-function tolerance. More... | |
const Real | _min_step_size |
In order to help the Newton-Raphson procedure, the applied strain increment may be applied in sub-increments of size greater than this value. More... | |
bool | _step_one |
handles case of initial_stress that is inadmissible being supplied More... | |
const bool | _warn_about_precision_loss |
Output a warning message if precision loss is encountered during the return-map process. More... | |
MaterialProperty< RankTwoTensor > & | _plastic_strain |
plastic strain More... | |
const MaterialProperty< RankTwoTensor > & | _plastic_strain_old |
Old value of plastic strain. More... | |
MaterialProperty< std::vector< Real > > & | _intnl |
internal parameters More... | |
const MaterialProperty< std::vector< Real > > & | _intnl_old |
old values of internal parameters More... | |
MaterialProperty< std::vector< Real > > & | _yf |
yield functions More... | |
MaterialProperty< Real > & | _iter |
Number of Newton-Raphson iterations used in the return-map. More... | |
MaterialProperty< Real > & | _max_iter_used |
Maximum number of Newton-Raphson iterations used in the return-map during the course of the entire simulation. More... | |
const MaterialProperty< Real > & | _max_iter_used_old |
Old value of maximum number of Newton-Raphson iterations used in the return-map during the course of the entire simulation. More... | |
MaterialProperty< Real > & | _linesearch_needed |
Whether a line-search was needed in the latest Newton-Raphson process (1 if true, 0 otherwise) More... | |
const std::string | _base_name |
Name used as a prefix for all material properties related to the stress update model. More... | |
CURR | |
PREV | |
bool | _bnd |
bool | _neighbor |
const QBase *const & | _qrule |
const MooseArray< Real > & | _JxW |
const SubdomainID & | _current_subdomain_id |
const unsigned int & | _current_side |
const ConstantTypeEnum | _constant_option |
SubProblem & | _subproblem |
FEProblemBase & | _fe_problem |
THREAD_ID | _tid |
Assembly & | _assembly |
const MooseArray< Real > & | _coord |
const MooseArray< Point > & | _normals |
MooseMesh & | _mesh |
const Moose::CoordinateSystemType & | _coord_sys |
std::set< std::string > | _requested_props |
std::set< std::string > | _supplied_props |
std::set< unsigned int > | _supplied_prop_ids |
std::unordered_set< unsigned int > | _active_prop_ids |
const bool | _compute |
std::unordered_map< unsigned int, unsigned int > | _props_to_min_states |
std::vector< unsigned int > | _displacements |
bool | _has_stateful_property |
bool | _overrides_init_stateful_props |
const FaceInfo * | _face_info |
const bool & | _enabled |
MooseApp & | _app |
const std::string | _type |
const std::string | _name |
const InputParameters & | _pars |
Factory & | _factory |
ActionFactory & | _action_factory |
const MaterialData * | _blk_material_data |
const ExecFlagEnum & | _execute_enum |
const ExecFlagType & | _current_execute_flag |
FEProblemBase & | _sc_fe_problem |
const THREAD_ID | _sc_tid |
const Real & | _real_zero |
const VariableValue & | _scalar_zero |
const Point & | _point_zero |
const InputParameters & | _ti_params |
FEProblemBase & | _ti_feproblem |
bool | _is_implicit |
Real & | _t |
int & | _t_step |
Real & | _dt_old |
bool | _is_transient |
MooseApp & | _restartable_app |
const std::string | _restartable_system_name |
const THREAD_ID | _restartable_tid |
const bool | _restartable_read_only |
FEProblemBase & | _mci_feproblem |
GeometricSearchData & | _geometric_search_data |
bool | _requires_geometric_search |
const InputParameters & | _c_parameters |
const std::string & | _c_name |
const std::string & | _c_type |
FEProblemBase & | _c_fe_problem |
const SystemBase *const | _c_sys |
std::unordered_map< std::string, std::vector< MooseVariableFieldBase *> > | _coupled_vars |
std::vector< MooseVariableFieldBase *> | _coupled_moose_vars |
std::vector< MooseVariable *> | _coupled_standard_moose_vars |
std::vector< VectorMooseVariable *> | _coupled_vector_moose_vars |
std::vector< ArrayMooseVariable *> | _coupled_array_moose_vars |
std::vector< MooseVariableFV< Real > *> | _coupled_standard_fv_moose_vars |
std::vector< MooseLinearVariableFV< Real > *> | _coupled_standard_linear_fv_moose_vars |
const std::unordered_map< std::string, std::string > & | _new_to_deprecated_coupled_vars |
bool | _c_nodal |
bool | _c_is_implicit |
const bool | _c_allow_element_to_nodal_coupling |
THREAD_ID | _c_tid |
std::unordered_map< std::string, std::vector< std::unique_ptr< VariableValue > > > | _default_value |
std::unordered_map< std::string, std::unique_ptr< MooseArray< DualReal > > > | _ad_default_value |
std::unordered_map< std::string, std::unique_ptr< VectorVariableValue > > | _default_vector_value |
std::unordered_map< std::string, std::unique_ptr< ArrayVariableValue > > | _default_array_value |
std::unordered_map< std::string, std::unique_ptr< MooseArray< ADRealVectorValue > > > | _ad_default_vector_value |
VariableValue | _default_value_zero |
VariableGradient | _default_gradient |
MooseArray< ADRealVectorValue > | _ad_default_gradient |
MooseArray< ADRealTensorValue > | _ad_default_vector_gradient |
VariableSecond | _default_second |
MooseArray< ADRealTensorValue > | _ad_default_second |
const VariableValue & | _zero |
const VariablePhiValue & | _phi_zero |
const MooseArray< DualReal > & | _ad_zero |
const VariableGradient & | _grad_zero |
const MooseArray< ADRealVectorValue > & | _ad_grad_zero |
const VariablePhiGradient & | _grad_phi_zero |
const VariableSecond & | _second_zero |
const MooseArray< ADRealTensorValue > & | _ad_second_zero |
const VariablePhiSecond & | _second_phi_zero |
const VectorVariableValue & | _vector_zero |
const VectorVariableCurl & | _vector_curl_zero |
VectorVariableValue | _default_vector_value_zero |
VectorVariableGradient | _default_vector_gradient |
VectorVariableCurl | _default_vector_curl |
VectorVariableDivergence | _default_div |
ArrayVariableValue | _default_array_value_zero |
ArrayVariableGradient | _default_array_gradient |
bool | _coupleable_neighbor |
const InputParameters & | _mi_params |
const std::string | _mi_name |
const MooseObjectName | _mi_moose_object_name |
FEProblemBase & | _mi_feproblem |
SubProblem & | _mi_subproblem |
const THREAD_ID | _mi_tid |
const Moose::MaterialDataType | _material_data_type |
MaterialData & | _material_data |
bool | _stateful_allowed |
bool | _get_material_property_called |
std::vector< std::unique_ptr< PropertyValue > > | _default_properties |
std::unordered_set< unsigned int > | _material_property_dependencies |
const MaterialPropertyName | _get_suffix |
const bool | _use_interpolated_state |
const Parallel::Communicator & | _communicator |
Static Protected Attributes | |
static constexpr int | _num_pq = 2 |
Number of variables = 2 = (p, q) More... | |
static constexpr unsigned | _tensor_dimensionality = 3 |
Internal dimensionality of tensors (currently this is 3 throughout tensor_mechanics) More... | |
static RankFourTensor | _identityTensor |
static const std::string | _interpolated_old |
static const std::string | _interpolated_older |
CappedWeakInclinedPlaneStressUpdate performs the return-map algorithm and associated stress updates for plastic models that describe capped weak-plane plasticity.
It assumes various things about the elasticity tensor, viz in the frame where the weak-plane's normal direction is the "2" direction: E(i,i,j,k) = 0 except if k=j E(0,0,i,j) = E(1,1,i,j)
Definition at line 25 of file CappedWeakInclinedPlaneStressUpdate.h.
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inherited |
Definition at line 57 of file StressUpdateBase.h.
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inherited |
Definition at line 59 of file StressUpdateBase.h.
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inherited |
Definition at line 58 of file StressUpdateBase.h.
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inherited |
Definition at line 60 of file StressUpdateBase.h.
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strongprotectedinherited |
This allows some simplification in the return-map process.
If the tensile yield function yf[1] >= 0 at the trial stress then clearly the quadpoint is not going to fail in compression, so _stress_return_type is set to no_compression, and every time the compressive yield function is evaluated it is set -(very large). If the compressive yield function yf[2] >= 0 at the trial stress then clearly the quadpoint is not going to fail in tension, so _stress_return_type is set to no_tension, and every time the tensile yield function is evaluated it is set -(very large). Otherwise (and at the very end after return-map) _stress_return_type is set to nothing_special.
Enumerator | |
---|---|
nothing_special | |
no_compression | |
no_tension |
Definition at line 73 of file CappedWeakPlaneStressUpdate.h.
CappedWeakInclinedPlaneStressUpdate::CappedWeakInclinedPlaneStressUpdate | ( | const InputParameters & | parameters | ) |
Definition at line 25 of file CappedWeakInclinedPlaneStressUpdate.C.
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inlinevirtualinherited |
Given the elastic strain increment compute the number of substeps required to bring a substepped trial stress guess distance from the yield surface into the tolerance specified in the individual child class.
Definition at line 160 of file StressUpdateBase.h.
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protectedinherited |
Calculates the residual-squared for the Newton-Raphson + line-search.
rhs[in] | The RHS vector |
Definition at line 800 of file MultiParameterPlasticityStressUpdate.C.
Referenced by MultiParameterPlasticityStressUpdate::lineSearch(), and MultiParameterPlasticityStressUpdate::updateState().
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protectedinherited |
Calculates the RHS in the following 0 = rhs[0] = S[0] - S[0]^trial + ga * E[0, j] * dg/dS[j] 0 = rhs[1] = S[1] - S[1]^trial + ga * E[1, j] * dg/dS[j] ...
0 = rhs[N-1] = S[N-1] - S[N-1]^trial + ga * E[N-1, j] * dg/dS[j] 0 = rhs[N] = f(S, intnl) where N = _num_sp
trial_stress_params[in] | The trial stress parameters for this (sub)strain increment, S[:]^trial |
stress_params[in] | The current stress parameters, S[:] |
gaE[in] | ga*_En (the normalisation with _En is so that gaE is of similar magnitude to S) |
smoothed_q[in] | Holds the current value of yield function and derivatives evaluated at the current stress parameters and the current internal parameters |
rhs[out] | The result |
Definition at line 809 of file MultiParameterPlasticityStressUpdate.C.
Referenced by MultiParameterPlasticityStressUpdate::lineSearch(), and MultiParameterPlasticityStressUpdate::updateState().
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overrideprotectedvirtualinherited |
Completely fills all_q with correct values.
These values are: (1) the yield function values, yf[i] (2) d(yf[i])/d(p, q) (3) d(yf[i])/d(intnl[j]) (4) d(flowPotential[i])/d(p, q) (5) d2(flowPotential[i])/d(p, q)/d(p, q) (6) d2(flowPotential[i])/d(p, q)/d(intnl[j])
p | p stress | |
q | q stress | |
intnl | The internal parameters | |
[out] | all_q | All the desired quantities |
Implements TwoParameterPlasticityStressUpdate.
Definition at line 281 of file CappedWeakPlaneStressUpdate.C.
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overrideprotectedvirtualinherited |
Completely fills all_q with correct values.
These values are: (1) the yield function values, yf[i] (2) d(yf[i])/d(stress_params[j]) (3) d(yf[i])/d(intnl[j]) (4) d(flowPotential[i])/d(stress_params[j]) (5) d2(flowPotential[i])/d(stress_params[j])/d(stress_params[k]) (6) d2(flowPotential[i])/d(stress_params[j])/d(intnl[k])
stress_params[in] | The stress parameters | |
intnl[in] | The internal parameters | |
[out] | all_q | All the desired quantities |
Implements MultiParameterPlasticityStressUpdate.
Definition at line 101 of file TwoParameterPlasticityStressUpdate.C.
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overrideprotectedvirtual |
Computes p and q, given stress.
Derived classes must override this
stress | Stress tensor |
p | p stress |
q | q q stress |
Reimplemented from CappedWeakPlaneStressUpdate.
Definition at line 101 of file CappedWeakInclinedPlaneStressUpdate.C.
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inlinevirtualinherited |
Compute the strain energy rate density for this inelastic model for the current step.
stress | The stress tensor at the end of the step |
strain_rate | The strain rate at the end of the step |
Reimplemented in PowerLawCreepStressUpdateTempl< is_ad >.
Definition at line 180 of file StressUpdateBase.h.
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overrideprotectedvirtualinherited |
Computes stress_params, given stress.
Derived classes must override this
stress[in] | Stress tensor |
stress_params[out] | The compute stress_params |
Implements MultiParameterPlasticityStressUpdate.
Definition at line 154 of file TwoParameterPlasticityStressUpdate.C.
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virtualinherited |
Reimplemented in RadialReturnStressUpdateTempl< is_ad >, GeneralizedRadialReturnStressUpdateTempl< is_ad >, LAROMANCEStressUpdateBaseTempl< is_ad >, and ViscoplasticityStressUpdateBaseTempl< is_ad >.
Definition at line 61 of file StressUpdateBase.C.
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overrideprotectedvirtual |
Calculates the consistent tangent operator.
Derived classes may choose to override this for computational efficiency. The implementation in this class is quite expensive, even though it looks compact and clean, because of all the manipulations of RankFourTensors involved.
stress_trial | the trial value of the stress tensor for this strain increment | |
p_trial | the trial value of p for this strain increment | |
q_trial | the trial value of q for this strain increment | |
stress | the returned value of the stress tensor for this strain increment | |
p | the returned value of p for this strain increment | |
q | the returned value of q for this strain increment | |
gaE | the total value of that came from this strain increment | |
smoothed_q | contains the yield function and derivatives evaluated at (p, q) | |
Eijkl | The elasticity tensor | |
compute_full_tangent_operator | true if the full consistent tangent operator is needed, otherwise false | |
[out] | cto | The consistent tangent operator |
Reimplemented from CappedWeakPlaneStressUpdate.
Definition at line 150 of file CappedWeakInclinedPlaneStressUpdate.C.
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overrideprotectedvirtualinherited |
Calculates the consistent tangent operator.
Derived classes may choose to override this for computational efficiency. The implementation in this class is quite expensive, even though it looks compact and clean, because of all the manipulations of RankFourTensors involved.
stress_trial[in] | the trial value of the stress tensor for this strain increment | |
trial_stress_params[in] | the trial values of the stress_params for this strain increment | |
stress[in] | the returned value of the stress tensor for this strain increment | |
stress_params[in] | the returned value of the stress_params for this strain increment | |
gaE[in] | the total value of that came from this strain increment | |
smoothed_q[in] | contains the yield function and derivatives evaluated at (p, q) | |
Eijkl[in] | The elasticity tensor | |
compute_full_tangent_operator[in] | true if the full consistent tangent operator is needed, otherwise false | |
dvar_dtrial[in] | dvar_dtrial[i][j] = d({stress_param[i],gaE})/d(trial_stress_param[j]) for this strain increment | |
[out] | cto | The consistent tangent operator |
Reimplemented from MultiParameterPlasticityStressUpdate.
Definition at line 165 of file TwoParameterPlasticityStressUpdate.C.
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overrideprotectedvirtualinherited |
d2(p)/d(stress)/d(stress) Derived classes must override this
stress | stress tensor |
Implements TwoParameterPlasticityStressUpdate.
Definition at line 492 of file CappedWeakPlaneStressUpdate.C.
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overrideprotectedvirtual |
d2(q)/d(stress)/d(stress) Derived classes must override this
stress | stress tensor |
Reimplemented from CappedWeakPlaneStressUpdate.
Definition at line 195 of file CappedWeakInclinedPlaneStressUpdate.C.
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overrideprotectedvirtualinherited |
d2(stress_param[i])/d(stress)/d(stress) at given stress
stress | stress tensor |
Implements MultiParameterPlasticityStressUpdate.
Definition at line 299 of file TwoParameterPlasticityStressUpdate.C.
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protectedinherited |
Derivative of -RHS with respect to the stress_params and gaE, placed into an array ready for solving the linear system using LAPACK gsev.
smoothed_q[in] | Holds the current value of yield function and derivatives evaluated at the current values of the stress_params and the internal parameters |
dintnl[in] | The derivatives of the internal parameters wrt the stress_params |
stress_params[in] | The current value of the stress_params during the Newton-Raphson process |
gaE[in] | The current value of gaE |
jac[out] | The outputted derivatives |
Definition at line 826 of file MultiParameterPlasticityStressUpdate.C.
Referenced by MultiParameterPlasticityStressUpdate::dVardTrial(), and MultiParameterPlasticityStressUpdate::nrStep().
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overrideprotectedvirtual |
d(p)/d(stress) Derived classes must override this
stress | stress tensor |
Reimplemented from CappedWeakPlaneStressUpdate.
Definition at line 176 of file CappedWeakInclinedPlaneStressUpdate.C.
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overrideprotectedvirtual |
d(q)/d(stress) Derived classes must override this
stress | stress tensor |
Reimplemented from CappedWeakPlaneStressUpdate.
Definition at line 185 of file CappedWeakInclinedPlaneStressUpdate.C.
Derivative of smoother.
Definition at line 531 of file MultiParameterPlasticityStressUpdate.C.
Referenced by MultiParameterPlasticityStressUpdate::smoothAllQuantities().
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overrideprotectedvirtualinherited |
d(stress_param[i])/d(stress) at given stress
stress | stress tensor |
Implements MultiParameterPlasticityStressUpdate.
Definition at line 290 of file TwoParameterPlasticityStressUpdate.C.
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protectedinherited |
Calculates derivatives of the stress_params and gaE with repect to the trial values of the stress_params for the (sub)strain increment.
After the strain increment has been fully applied, dvar_dtrial will contain the result appropriate to the full strain increment. Before that time (if applying in sub-strain increments) it will contain the result appropriate to the amount of strain increment applied successfully.
elastic_only[in] | whether this was an elastic step: if so then the updates to dvar_dtrial are fairly trivial |
trial_stress_params[in] | Trial values of stress_params for this (sub)strain increment |
stress_params[in] | Returned values of stress_params for this (sub)strain increment |
gaE[in] | the value of gaE that came from this (sub)strain increment |
intnl[in] | the value of the internal parameters at the returned position |
smoothed_q[in] | contains the yield function and derivatives evaluated at (stress_params, intnl) |
step_size[in] | size of this (sub)strain increment |
compute_full_tangent_operator[in] | true if the full consistent tangent operator is needed, otherwise false |
dvar_dtrial[out] | dvar_dtrial[i][j] = d({stress_param[i],gaE})/d(trial_stress_param[j]) |
Definition at line 871 of file MultiParameterPlasticityStressUpdate.C.
Referenced by MultiParameterPlasticityStressUpdate::updateState().
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protectedvirtualinherited |
Performs any necessary cleaning-up, then throw MooseException(message)
message | The message to using in MooseException |
Definition at line 659 of file MultiParameterPlasticityStressUpdate.C.
Referenced by MultiParameterPlasticityStressUpdate::dVardTrial(), and MultiParameterPlasticityStressUpdate::updateState().
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overrideprotectedvirtual |
Derived classes may use this to perform calculations after the return-map process has completed successfully in stress_param space but before the returned stress tensor has been calculcated.
rotation_increment[in] | The large-strain rotation increment |
Reimplemented from CappedWeakPlaneStressUpdate.
Definition at line 53 of file CappedWeakInclinedPlaneStressUpdate.C.
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inlineoverrideprotectedvirtualinherited |
Reimplemented from StressUpdateBaseTempl< is_ad, R2, R4 >.
Definition at line 119 of file MultiParameterPlasticityStressUpdate.h.
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overrideprotectedvirtual |
Derived classes may use this to perform calculations before any return-map process is performed, for instance, to initialize variables.
This is called at the very start of updateState, even before any checking for admissible stresses, etc, is performed
Reimplemented from CappedWeakPlaneStressUpdate.
Definition at line 66 of file CappedWeakInclinedPlaneStressUpdate.C.
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overrideprotectedvirtualinherited |
Sets (p, q, gaE, intnl) at "good guesses" of the solution to the Return-Map algorithm.
The purpose of these "good guesses" is to speed up the Newton-Raphson process by providing it with a good initial guess. Derived classes may choose to override this if their plastic models are easy enough to solve approximately. The default values, provided by this class, are simply p=p_trial, etc: that is, the "good guess" is just the trial point for this (sub)strain increment.
p_trial | The trial value of p for this (sub)strain increment |
q_trial | The trial value of q for this (sub)strain increment |
intnl_old | The internal parameters before applying the (sub)strain increment |
p[out] | The "good guess" value of p. Default = p_trial |
q[out] | The "good guess" value of q. Default = q_trial |
gaE[out] | The "good guess" value of gaE. Default = 0 |
intnl[out] | The "good guess" value of the internal parameters |
Reimplemented from TwoParameterPlasticityStressUpdate.
Definition at line 376 of file CappedWeakPlaneStressUpdate.C.
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overrideprotectedvirtualinherited |
Sets (stress_params, intnl) at "good guesses" of the solution to the Return-Map algorithm.
The purpose of these "good guesses" is to speed up the Newton-Raphson process by providing it with a good initial guess. Derived classes may choose to override this if their plastic models are easy enough to solve approximately. The default values, provided by this class, are simply gaE = 0, stress_params = trial_stress_params, that is, the "good guess" is just the trial point for this (sub)strain increment.
trial_stress_params[in] | The stress_params at the trial point |
intnl_old[in] | The internal parameters before applying the (sub)strain increment |
stress_params[out] | The "good guess" value of the stress_params |
gaE[out] | The "good guess" value of gaE |
intnl[out] | The "good guess" value of the internal parameters |
Reimplemented from MultiParameterPlasticityStressUpdate.
Definition at line 111 of file TwoParameterPlasticityStressUpdate.C.
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overrideprotectedvirtual |
Reimplemented from MultiParameterPlasticityStressUpdate.
Definition at line 46 of file CappedWeakInclinedPlaneStressUpdate.C.
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inlinevirtualinherited |
Is the implmented model isotropic? The safe default is 'false'.
Reimplemented in RadialReturnStressUpdateTempl< is_ad >, CappedDruckerPragerStressUpdate, and CappedMohrCoulombStressUpdate.
Definition at line 130 of file StressUpdateBase.h.
Referenced by ComputeMultipleInelasticStressBase::initialSetup().
Smooths yield functions.
The returned value must be zero if abs(f_diff) >= _smoothing_tol and otherwise must satisfy, over -_smoothing_tol <= f_diff <= _smoothing_tol: (1) C2 (2) zero at f_diff = +/- _smoothing_tol (3) derivative is +/-0.5 at f_diff = +/- _smoothing_tol (4) derivative must be in [-0.5, 0.5] (5) second derivative is zero at f_diff = +/- _smoothing_tol (6) second derivative must be non-negative in order to ensure C2 differentiability and convexity of the smoothed yield surface.
Definition at line 482 of file MultiParameterPlasticityStressUpdate.C.
Referenced by MultiParameterPlasticityStressUpdate::smoothAllQuantities(), and MultiParameterPlasticityStressUpdate::yieldF().
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protectedinherited |
Performs a line-search to find stress_params and gaE Upon entry:
res2[in,out] | the residual-squared, both as an input and output |
stress_params[in,out] | Upon input the value of the stress_params before the current Newton-Raphson process was initiated. Upon exit this will hold the values coming from the line search. |
trial_stress_params[in] | Trial value for the stress_params for this (sub)strain increment |
gaE[in,out] | Upon input the value of gaE before the current Newton-Raphson iteration was initiated. Upon exit this will hold the value coming from the line-search |
smoothed_q[in,out] | Upon input, the value of the smoothed yield function and derivatives at the prior-to-Newton configuration. Upon exit this is evaluated at the new (stress_params, intnl) |
intnl_ok[in] | The value of the internal parameters from the start of this (sub)strain increment |
intnl[in,out] | The value of the internal parameters after the line-search has converged |
rhs[in,out] | Upon entry this contains the solution to the Newton-Raphson. Upon exit this contains the updated rhs values |
Definition at line 551 of file MultiParameterPlasticityStressUpdate.C.
Referenced by MultiParameterPlasticityStressUpdate::updateState().
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protectedinherited |
Performs a Newton-Raphson step to attempt to zero rhs Upon return, rhs will contain the solution.
smoothed_q[in] | The value of the smoothed yield function and derivatives prior to this Newton-Raphson step |
trial_stress_params[in] | Trial value for the stress_params for this (sub)strain increment |
stress_params[in] | The current value of the stress_params |
intnl[in] | The current value of the internal parameters |
gaE[in] | The current value of gaE |
rhs[in,out] | Upon entry, the rhs to zero using Newton-Raphson. Upon exit, the solution to the Newton-Raphson problem |
Definition at line 635 of file MultiParameterPlasticityStressUpdate.C.
Referenced by MultiParameterPlasticityStressUpdate::updateState().
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protectedinherited |
Check whether precision loss has occurred.
[in] | solution | The solution to the Newton-Raphson system |
[in] | stress_params | The currect values of the stress_params for this (sub)strain increment |
[in] | gaE | The currenct value of gaE for this (sub)strain increment |
Definition at line 981 of file MultiParameterPlasticityStressUpdate.C.
Referenced by MultiParameterPlasticityStressUpdate::updateState().
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overrideprotectedvirtual |
Derived classes may employ this function to record stuff or do other computations prior to the return-mapping algorithm.
We know that (p_trial, q_trial, intnl_old) is inadmissible.
p_trial | Trial value of p |
q_trial | Trial value of q |
stress_trial | Trial stress tensor |
intnl_old | Old value of the internal parameters. |
yf | The yield functions at (p_trial, q_trial, intnl_old) |
Eijkl | The elasticity tensor |
Reimplemented from CappedWeakPlaneStressUpdate.
Definition at line 77 of file CappedWeakInclinedPlaneStressUpdate.C.
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overrideprotectedvirtualinherited |
Derived classes may employ this function to record stuff or do other computations prior to the return-mapping algorithm.
We know that (trial_stress_params, intnl_old) is inadmissible when this is called
trial_stress_params[in] | The trial values of the stress parameters |
stress_trial[in] | Trial stress tensor |
intnl_old[in] | Old value of the internal parameters. |
yf[in] | The yield functions at (p_trial, q_trial, intnl_old) |
Eijkl[in] | The elasticity tensor |
Reimplemented from MultiParameterPlasticityStressUpdate.
Definition at line 63 of file TwoParameterPlasticityStressUpdate.C.
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overrideprotectedvirtualinherited |
If updateState is not called during a timestep, this will be.
This method allows derived classes to set internal parameters from their Old values, for instance
Reimplemented from StressUpdateBaseTempl< is_ad, R2, R4 >.
Definition at line 150 of file MultiParameterPlasticityStressUpdate.C.
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inlineoverridevirtual |
Does the model require the elasticity tensor to be isotropic?
Implements StressUpdateBaseTempl< is_ad, R2, R4 >.
Definition at line 35 of file CappedWeakInclinedPlaneStressUpdate.h.
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inlinevirtualinherited |
Reset material properties.
Useful for substepping with inelastic models.
Reimplemented in PowerLawCreepStressUpdateTempl< is_ad >, and LAROMANCEStressUpdateBaseTempl< is_ad >.
Definition at line 172 of file StressUpdateBase.h.
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inlinefinalvirtualinherited |
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inlinefinalvirtualinherited |
Retained as empty methods to avoid a warning from Material.C in framework. These methods are unused in all inheriting classes and should not be overwritten.
Reimplemented from Material.
Definition at line 137 of file StressUpdateBase.h.
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overrideprotectedvirtualinherited |
Sets _Eij and _En and _Cij.
Implements MultiParameterPlasticityStressUpdate.
Definition at line 50 of file TwoParameterPlasticityStressUpdate.C.
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overrideprotectedvirtual |
Set Epp and Eqq based on the elasticity tensor Derived classes must override this.
Eijkl | elasticity tensor | |
[out] | Epp | Epp value |
[out] | Eqq | Eqq value |
Reimplemented from CappedWeakPlaneStressUpdate.
Definition at line 112 of file CappedWeakInclinedPlaneStressUpdate.C.
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overrideprotectedvirtualinherited |
Sets inelastic strain increment from the returned configuration This is called after the return-map process has completed successfully in stress_param space, just after finalizeReturnProcess has been called.
Derived classes may override this function
stress_trial[in] | The trial value of stress |
gaE[in] | The value of gaE after the return-map process has completed successfully |
smoothed_q[in] | Holds the current value of yield function and derivatives evaluated at the returned configuration |
elasticity_tensor[in] | The elasticity tensor |
returned_stress[in] | The stress after the return-map process |
inelastic_strain_increment[out] | The inelastic strain increment resulting from this return-map |
Reimplemented from MultiParameterPlasticityStressUpdate.
Definition at line 277 of file TwoParameterPlasticityStressUpdate.C.
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overrideprotectedvirtualinherited |
Sets the derivatives of internal parameters, based on the trial values of p and q, their current values, and the old values of the internal parameters.
Derived classes must override this.
p_trial | Trial value of p |
q_trial | Trial value of q |
p | Current value of p |
q | Current value of q |
intnl | The current value of the internal parameters |
dintnl | The derivatives dintnl[i][j] = d(intnl[i])/d(variable j), where variable0=p and variable1=q |
Implements TwoParameterPlasticityStressUpdate.
Definition at line 159 of file CappedWeakPlaneStressUpdate.C.
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overrideprotectedvirtualinherited |
Sets the derivatives of internal parameters, based on the trial values of stress_params, their current values, and the current values of the internal parameters.
Derived classes must override this.
trial_stress_params[in] | The trial stress parameters |
current_stress_params[in] | The current stress parameters |
intnl[in] | The current value of the internal parameters |
dintnl[out] | The derivatives dintnl[i][j] = d(intnl[i])/d(stress_param j) |
Implements MultiParameterPlasticityStressUpdate.
Definition at line 140 of file TwoParameterPlasticityStressUpdate.C.
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overrideprotectedvirtualinherited |
Sets the internal parameters based on the trial values of p and q, their current values, and the old values of the internal parameters.
Derived classes must override this.
p_trial | Trial value of p |
q_trial | Trial value of q |
p | Current value of p |
q | Current value of q |
intnl_old | Old value of internal parameters |
intnl[out] | The value of internal parameters to be set |
Implements TwoParameterPlasticityStressUpdate.
Definition at line 471 of file CappedWeakPlaneStressUpdate.C.
Referenced by CappedWeakPlaneStressUpdate::initializeVars().
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overrideprotectedvirtualinherited |
Sets the internal parameters based on the trial values of stress_params, their current values, and the old values of the internal parameters.
Derived classes must override this.
trial_stress_params[in] | The trial stress parameters (eg trial_p and trial_q) |
current_stress_params[in] | The current stress parameters (eg p and q) |
intnl_old[out] | Old value of internal parameters |
intnl[out] | The value of internal parameters to be set |
Implements MultiParameterPlasticityStressUpdate.
Definition at line 127 of file TwoParameterPlasticityStressUpdate.C.
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inherited |
Sets the value of the global variable _qp for inheriting classes.
Definition at line 46 of file StressUpdateBase.C.
Referenced by ComputeCreepPlasticityStress::updateQpState().
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overrideprotectedvirtual |
Sets stress from the admissible parameters.
This is called after the return-map process has completed successfully in (p, q) space, just after finalizeReturnProcess has been called. Derived classes may override this function
stress_trial | The trial value of stress |
p_ok | Returned value of p |
q_ok | Returned value of q |
gaE | Value of gaE induced by the return (gaE = gamma * Epp) |
smoothed_q | Holds the current value of yield function and derivatives evaluated at (p_ok, q_ok, _intnl) |
Eijkl | The elasticity tensor |
stress[out] | The returned value of the stress tensor |
Reimplemented from CappedWeakPlaneStressUpdate.
Definition at line 121 of file CappedWeakInclinedPlaneStressUpdate.C.
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overrideprotectedvirtualinherited |
Sets stress from the admissible parameters.
This is called after the return-map process has completed successfully in stress_param space, just after finalizeReturnProcess has been called. Derived classes must override this function
stress_trial[in] | The trial value of stress |
stress_params[in] | The value of the stress_params after the return-map process has completed successfully |
gaE[in] | The value of gaE after the return-map process has completed successfully |
intnl[in] | The value of the internal parameters after the return-map process has completed successfully |
smoothed_q[in] | Holds the current value of yield function and derivatives evaluated at the returned state |
Eijkl[in] | The elasticity tensor |
stress[out] | The returned value of the stress tensor |
Implements MultiParameterPlasticityStressUpdate.
Definition at line 263 of file TwoParameterPlasticityStressUpdate.C.
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protectedinherited |
Calculates all yield functions and derivatives, and then performs the smoothing scheme.
stress_params[in] | The stress parameters (eg stress_params[0] = stress_zz and stress_params[1] = sqrt(stress_zx^2 + stress_zy^2)) |
intnl[in] | Internal parameters |
Definition at line 398 of file MultiParameterPlasticityStressUpdate.C.
Referenced by MultiParameterPlasticityStressUpdate::lineSearch(), and MultiParameterPlasticityStressUpdate::updateState().
Derivative of ismoother.
Definition at line 508 of file MultiParameterPlasticityStressUpdate.C.
Referenced by MultiParameterPlasticityStressUpdate::smoothAllQuantities().
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inlinevirtualinherited |
Properly set up the incremental calculation storage of the stateful material properties in the inheriting classes.
Reimplemented in LAROMANCEStressUpdateBaseTempl< is_ad >.
Definition at line 167 of file StressUpdateBase.h.
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inlinevirtualinherited |
Does the model include the infrastructure for substep decomposition of the elastic strain initially used to calculate the trial stress guess Inheriting classes which wish to use the substepping capability should overwrite this method and set it to return true.
Reimplemented in ADMultiplePowerLawCreepStressUpdate, PowerLawCreepStressUpdateTempl< is_ad >, and LAROMANCEStressUpdateBaseTempl< is_ad >.
Definition at line 147 of file StressUpdateBase.h.
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inlinevirtualinherited |
Has the user requested usage of (possibly) implemented substepping capability for inelastic models.
Reimplemented in RadialReturnStressUpdateTempl< is_ad >.
Definition at line 153 of file StressUpdateBase.h.
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virtualinherited |
Given a strain increment that results in a trial stress, perform some procedure (such as an iterative return-mapping process) to produce an admissible stress, an elastic strain increment and an inelastic strain increment.
If _fe_problem.currentlyComputingJacobian() = true, then updateState also computes d(stress)/d(strain) (or some approximation to it).
This method is called by ComputeMultipleInelasticStress. This method is pure virutal: all inheriting classes must overwrite this method.
strain_increment | Upon input: the strain increment. Upon output: the elastic strain increment |
inelastic_strain_increment | The inelastic_strain resulting from the interative procedure |
rotation_increment | The finite-strain rotation increment |
stress_new | Upon input: the trial stress that results from applying strain_increment as an elastic strain. Upon output: the admissible stress |
stress_old | The old value of stress |
elasticity_tensor | The elasticity tensor |
compute_full_tangent_operator | The calling routine would like the full consistent tangent operator to be placed in tangent_operator, if possible. This is irrelevant if _fe_problem.currentlyComputingJacobian() = false |
tangent_operator | d(stress)/d(strain), or some approximation to it If compute_full_tangent_operator=false, then tangent_operator=elasticity_tensor is an appropriate choice. tangent_operator is only computed if _fe_problem.currentlyComputingJacobian() = true |
Definition at line 68 of file StressUpdateBase.C.
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protectedinherited |
Given a strain increment that results in a trial stress, perform some procedure (such as an iterative return-mapping process) to produce an admissible stress, an elastic strain increment and an inelastic strain increment.
If _fe_problem.currentlyComputingJacobian() = true, then updateState also computes d(stress)/d(strain) (or some approximation to it).
This method is called by ComputeMultipleInelasticStress. This method is pure virutal: all inheriting classes must overwrite this method.
strain_increment | Upon input: the strain increment. Upon output: the elastic strain increment |
inelastic_strain_increment | The inelastic_strain resulting from the interative procedure |
rotation_increment | The finite-strain rotation increment |
stress_new | Upon input: the trial stress that results from applying strain_increment as an elastic strain. Upon output: the admissible stress |
stress_old | The old value of stress |
elasticity_tensor | The elasticity tensor |
compute_full_tangent_operator | The calling routine would like the full consistent tangent operator to be placed in tangent_operator, if possible. This is irrelevant if _fe_problem.currentlyComputingJacobian() = false |
tangent_operator | d(stress)/d(strain), or some approximation to it If compute_full_tangent_operator=false, then tangent_operator=elasticity_tensor is an appropriate choice. tangent_operator is only computed if _fe_problem.currentlyComputingJacobian() = true |
Definition at line 68 of file StressUpdateBase.C.
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overrideprotectedvirtualinherited |
Definition at line 158 of file MultiParameterPlasticityStressUpdate.C.
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virtualinherited |
Similar to the updateState function, this method updates the strain and stress for one substep.
Definition at line 84 of file StressUpdateBase.C.
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static |
Definition at line 17 of file CappedWeakInclinedPlaneStressUpdate.C.
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protectedinherited |
Computes the smoothed yield function.
stress_params | The stress parameters (eg stress_params[0] = stress_zz and stress_params[1] = sqrt(stress_zx^2 + stress_zy^2)) |
intnl | The internal parameters (eg intnl[0] is shear, intnl[1] is tensile) |
Definition at line 686 of file MultiParameterPlasticityStressUpdate.C.
Referenced by MultiParameterPlasticityStressUpdate::updateState().
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protectedinherited |
Computes the smoothed yield function.
yfs | The values of the individual yield functions |
Definition at line 695 of file MultiParameterPlasticityStressUpdate.C.
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overrideprotectedvirtualinherited |
Computes the values of the yield functions, given p, q and intnl parameters.
Derived classes must override this, to provide the values of the yield functions in yf.
p | p stress | |
q | q stress | |
intnl | The internal parameters | |
[out] | yf | The yield function values |
Implements TwoParameterPlasticityStressUpdate.
Definition at line 261 of file CappedWeakPlaneStressUpdate.C.
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overrideprotectedvirtualinherited |
Computes the values of the yield functions, given stress_params and intnl parameters.
Derived classes must override this, to provide the values of the yield functions in yf.
stress_params[in] | The stress parameters | |
intnl[in] | The internal parameters | |
[out] | yf | The yield function values |
Implements MultiParameterPlasticityStressUpdate.
Definition at line 40 of file TwoParameterPlasticityStressUpdate.C.
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protectedinherited |
Name used as a prefix for all material properties related to the stress update model.
Definition at line 191 of file StressUpdateBase.h.
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protectedinherited |
_Cij[i, j] * _Eij[j, k] = 1 iff j == k
Definition at line 140 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::consistentTangentOperatorV(), CappedMohrCoulombCosseratStressUpdate::setEffectiveElasticity(), TensileStressUpdate::setEffectiveElasticity(), CappedMohrCoulombStressUpdate::setEffectiveElasticity(), and TwoParameterPlasticityStressUpdate::setEffectiveElasticity().
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protectedinherited |
Hardening model for cohesion.
Definition at line 40 of file CappedWeakPlaneStressUpdate.h.
Referenced by CappedWeakPlaneStressUpdate::CappedWeakPlaneStressUpdate(), CappedWeakPlaneStressUpdate::computeAllQ(), CappedWeakPlaneStressUpdate::initializeVars(), and CappedWeakPlaneStressUpdate::yieldFunctionValues().
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protectedinherited |
Hardening model for compressive strength.
Definition at line 52 of file CappedWeakPlaneStressUpdate.h.
Referenced by CappedWeakPlaneStressUpdate::CappedWeakPlaneStressUpdate(), CappedWeakPlaneStressUpdate::computeAllQ(), CappedWeakPlaneStressUpdate::initializeVars(), and CappedWeakPlaneStressUpdate::yieldFunctionValues().
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inherited |
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protectedinherited |
An admissible value of stress_params at the initial time.
Definition at line 131 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::MultiParameterPlasticityStressUpdate(), and MultiParameterPlasticityStressUpdate::updateState().
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protectedinherited |
derivative of Variable with respect to trial variable (used in consistent-tangent-operator calculation)
Definition at line 50 of file TwoParameterPlasticityStressUpdate.h.
Referenced by CappedWeakPlaneCosseratStressUpdate::consistentTangentOperator(), CappedWeakPlaneStressUpdate::consistentTangentOperator(), and TwoParameterPlasticityStressUpdate::consistentTangentOperatorV().
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protectedinherited |
derivative of Variable with respect to trial variable (used in consistent-tangent-operator calculation)
Definition at line 52 of file TwoParameterPlasticityStressUpdate.h.
Referenced by CappedWeakPlaneCosseratStressUpdate::consistentTangentOperator(), CappedWeakPlaneStressUpdate::consistentTangentOperator(), and TwoParameterPlasticityStressUpdate::consistentTangentOperatorV().
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protectedinherited |
derivative of Variable with respect to trial variable (used in consistent-tangent-operator calculation)
Definition at line 54 of file TwoParameterPlasticityStressUpdate.h.
Referenced by CappedWeakPlaneCosseratStressUpdate::consistentTangentOperator(), CappedDruckerPragerCosseratStressUpdate::consistentTangentOperator(), CappedWeakPlaneStressUpdate::consistentTangentOperator(), CappedDruckerPragerStressUpdate::consistentTangentOperator(), TwoParameterPlasticityStressUpdate::consistentTangentOperator(), and TwoParameterPlasticityStressUpdate::consistentTangentOperatorV().
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protectedinherited |
derivative of Variable with respect to trial variable (used in consistent-tangent-operator calculation)
Definition at line 58 of file TwoParameterPlasticityStressUpdate.h.
Referenced by CappedWeakPlaneCosseratStressUpdate::consistentTangentOperator(), CappedDruckerPragerCosseratStressUpdate::consistentTangentOperator(), CappedWeakPlaneStressUpdate::consistentTangentOperator(), CappedDruckerPragerStressUpdate::consistentTangentOperator(), TwoParameterPlasticityStressUpdate::consistentTangentOperator(), and TwoParameterPlasticityStressUpdate::consistentTangentOperatorV().
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derivative of Variable with respect to trial variable (used in consistent-tangent-operator calculation)
Definition at line 56 of file TwoParameterPlasticityStressUpdate.h.
Referenced by CappedWeakPlaneCosseratStressUpdate::consistentTangentOperator(), CappedDruckerPragerCosseratStressUpdate::consistentTangentOperator(), CappedWeakPlaneStressUpdate::consistentTangentOperator(), CappedDruckerPragerStressUpdate::consistentTangentOperator(), TwoParameterPlasticityStressUpdate::consistentTangentOperator(), and TwoParameterPlasticityStressUpdate::consistentTangentOperatorV().
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derivative of Variable with respect to trial variable (used in consistent-tangent-operator calculation)
Definition at line 60 of file TwoParameterPlasticityStressUpdate.h.
Referenced by CappedWeakPlaneCosseratStressUpdate::consistentTangentOperator(), CappedDruckerPragerCosseratStressUpdate::consistentTangentOperator(), CappedWeakPlaneStressUpdate::consistentTangentOperator(), CappedDruckerPragerStressUpdate::consistentTangentOperator(), TwoParameterPlasticityStressUpdate::consistentTangentOperator(), and TwoParameterPlasticityStressUpdate::consistentTangentOperatorV().
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E[i, j] in the system of equations to be solved.
Definition at line 134 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::calculateRHS(), MultiParameterPlasticityStressUpdate::dnRHSdVar(), MultiParameterPlasticityStressUpdate::dVardTrial(), CappedMohrCoulombStressUpdate::initializeVarsV(), CappedMohrCoulombCosseratStressUpdate::setEffectiveElasticity(), TensileStressUpdate::setEffectiveElasticity(), CappedMohrCoulombStressUpdate::setEffectiveElasticity(), TwoParameterPlasticityStressUpdate::setEffectiveElasticity(), TensileStressUpdate::setIntnlDerivativesV(), CappedMohrCoulombStressUpdate::setIntnlDerivativesV(), TensileStressUpdate::setIntnlValuesV(), and CappedMohrCoulombStressUpdate::setIntnlValuesV().
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normalising factor
Definition at line 137 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::calculateRHS(), MultiParameterPlasticityStressUpdate::consistentTangentOperatorV(), MultiParameterPlasticityStressUpdate::dnRHSdVar(), MultiParameterPlasticityStressUpdate::dVardTrial(), CappedMohrCoulombCosseratStressUpdate::setEffectiveElasticity(), TensileStressUpdate::setEffectiveElasticity(), CappedMohrCoulombStressUpdate::setEffectiveElasticity(), TwoParameterPlasticityStressUpdate::setEffectiveElasticity(), and MultiParameterPlasticityStressUpdate::setInelasticStrainIncrementAfterReturn().
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elasticity tensor in p direction
Definition at line 44 of file TwoParameterPlasticityStressUpdate.h.
Referenced by CappedDruckerPragerCosseratStressUpdate::consistentTangentOperator(), CappedDruckerPragerStressUpdate::consistentTangentOperator(), TwoParameterPlasticityStressUpdate::consistentTangentOperator(), CappedWeakPlaneStressUpdate::initializeVars(), CappedDruckerPragerStressUpdate::initializeVars(), TwoParameterPlasticityStressUpdate::setEffectiveElasticity(), TwoParameterPlasticityStressUpdate::setInelasticStrainIncrementAfterReturn(), CappedWeakPlaneStressUpdate::setIntnlDerivatives(), CappedDruckerPragerStressUpdate::setIntnlDerivatives(), CappedWeakPlaneStressUpdate::setIntnlValues(), CappedDruckerPragerStressUpdate::setIntnlValues(), CappedWeakPlaneCosseratStressUpdate::setStressAfterReturn(), setStressAfterReturn(), and CappedWeakPlaneStressUpdate::setStressAfterReturn().
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elasticity tensor in q direction
Definition at line 47 of file TwoParameterPlasticityStressUpdate.h.
Referenced by CappedDruckerPragerStressUpdate::consistentTangentOperator(), TwoParameterPlasticityStressUpdate::consistentTangentOperator(), CappedWeakPlaneStressUpdate::initializeVars(), CappedDruckerPragerStressUpdate::initializeVars(), TwoParameterPlasticityStressUpdate::setEffectiveElasticity(), CappedWeakPlaneStressUpdate::setIntnlDerivatives(), CappedDruckerPragerStressUpdate::setIntnlDerivatives(), CappedWeakPlaneStressUpdate::setIntnlValues(), and CappedDruckerPragerStressUpdate::setIntnlValues().
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The yield-function tolerance.
Definition at line 161 of file MultiParameterPlasticityStressUpdate.h.
Referenced by CappedMohrCoulombStressUpdate::initializeVarsV(), and MultiParameterPlasticityStressUpdate::updateState().
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Square of the yield-function tolerance.
Definition at line 164 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::updateState().
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Definition at line 193 of file StressUpdateBase.h.
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trial value of q
Definition at line 87 of file CappedWeakPlaneStressUpdate.h.
Referenced by preReturnMap(), CappedWeakPlaneStressUpdate::preReturnMap(), CappedWeakPlaneCosseratStressUpdate::setStressAfterReturn(), setStressAfterReturn(), and CappedWeakPlaneStressUpdate::setStressAfterReturn().
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trial value of stress(0, 2)
Definition at line 81 of file CappedWeakPlaneStressUpdate.h.
Referenced by CappedWeakPlaneCosseratStressUpdate::consistentTangentOperator(), CappedWeakPlaneStressUpdate::consistentTangentOperator(), preReturnMap(), CappedWeakPlaneStressUpdate::preReturnMap(), CappedWeakPlaneCosseratStressUpdate::setStressAfterReturn(), setStressAfterReturn(), and CappedWeakPlaneStressUpdate::setStressAfterReturn().
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trial value of stress(1, 2)
Definition at line 84 of file CappedWeakPlaneStressUpdate.h.
Referenced by CappedWeakPlaneCosseratStressUpdate::consistentTangentOperator(), CappedWeakPlaneStressUpdate::consistentTangentOperator(), preReturnMap(), CappedWeakPlaneStressUpdate::preReturnMap(), CappedWeakPlaneCosseratStressUpdate::setStressAfterReturn(), setStressAfterReturn(), and CappedWeakPlaneStressUpdate::setStressAfterReturn().
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internal parameters
Definition at line 186 of file MultiParameterPlasticityStressUpdate.h.
Referenced by CappedWeakPlaneCosseratStressUpdate::consistentTangentOperator(), CappedWeakPlaneStressUpdate::consistentTangentOperator(), MultiParameterPlasticityStressUpdate::initQpStatefulProperties(), MultiParameterPlasticityStressUpdate::propagateQpStatefulProperties(), and MultiParameterPlasticityStressUpdate::updateState().
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old values of internal parameters
Definition at line 189 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::propagateQpStatefulProperties(), and MultiParameterPlasticityStressUpdate::updateState().
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Number of Newton-Raphson iterations used in the return-map.
Definition at line 195 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::initQpStatefulProperties(), and MultiParameterPlasticityStressUpdate::updateState().
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Whether a line-search was needed in the latest Newton-Raphson process (1 if true, 0 otherwise)
Definition at line 204 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::initQpStatefulProperties(), and MultiParameterPlasticityStressUpdate::updateState().
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Maximum number of Newton-Raphson iterations used in the return-map during the course of the entire simulation.
Definition at line 198 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::initQpStatefulProperties(), MultiParameterPlasticityStressUpdate::propagateQpStatefulProperties(), and MultiParameterPlasticityStressUpdate::updateState().
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Old value of maximum number of Newton-Raphson iterations used in the return-map during the course of the entire simulation.
Definition at line 201 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::propagateQpStatefulProperties(), and MultiParameterPlasticityStressUpdate::updateState().
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Maximum number of Newton-Raphson iterations allowed in the return-map process.
Definition at line 149 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::updateState().
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In order to help the Newton-Raphson procedure, the applied strain increment may be applied in sub-increments of size greater than this value.
Definition at line 171 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::updateState().
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Current value of the normal.
Definition at line 44 of file CappedWeakInclinedPlaneStressUpdate.h.
Referenced by finalizeReturnProcess(), initializeReturnProcess(), and initQpStatefulProperties().
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User-input value of the normal vector to the weak plane.
Definition at line 41 of file CappedWeakInclinedPlaneStressUpdate.h.
Referenced by CappedWeakInclinedPlaneStressUpdate(), and initQpStatefulProperties().
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Old value of the normal.
Definition at line 47 of file CappedWeakInclinedPlaneStressUpdate.h.
Referenced by finalizeReturnProcess().
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Number of internal parameters.
Definition at line 146 of file MultiParameterPlasticityStressUpdate.h.
Referenced by CappedMohrCoulombStressUpdate::computeAllQV(), MultiParameterPlasticityStressUpdate::dnRHSdVar(), MultiParameterPlasticityStressUpdate::dVardTrial(), MultiParameterPlasticityStressUpdate::initQpStatefulProperties(), MultiParameterPlasticityStressUpdate::nrStep(), MultiParameterPlasticityStressUpdate::smoothAllQuantities(), and MultiParameterPlasticityStressUpdate::updateState().
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Number of variables = 2 = (p, q)
Definition at line 35 of file TwoParameterPlasticityStressUpdate.h.
Referenced by TwoParameterPlasticityStressUpdate::d2stress_param_dstress(), and TwoParameterPlasticityStressUpdate::dstress_param_dstress().
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Number of stress parameters.
Definition at line 128 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::calculateRHS(), TensileStressUpdate::computeAllQV(), CappedMohrCoulombStressUpdate::computeAllQV(), TensileStressUpdate::consistentTangentOperatorV(), CappedMohrCoulombStressUpdate::consistentTangentOperatorV(), MultiParameterPlasticityStressUpdate::consistentTangentOperatorV(), MultiParameterPlasticityStressUpdate::dnRHSdVar(), MultiParameterPlasticityStressUpdate::dVardTrial(), TensileStressUpdate::initializeVarsV(), CappedMohrCoulombStressUpdate::initializeVarsV(), MultiParameterPlasticityStressUpdate::lineSearch(), MultiParameterPlasticityStressUpdate::MultiParameterPlasticityStressUpdate(), MultiParameterPlasticityStressUpdate::nrStep(), MultiParameterPlasticityStressUpdate::precisionLoss(), CappedMohrCoulombCosseratStressUpdate::setEffectiveElasticity(), TensileStressUpdate::setEffectiveElasticity(), CappedMohrCoulombStressUpdate::setEffectiveElasticity(), MultiParameterPlasticityStressUpdate::setInelasticStrainIncrementAfterReturn(), CappedMohrCoulombStressUpdate::setIntnlDerivativesV(), MultiParameterPlasticityStressUpdate::smoothAllQuantities(), and MultiParameterPlasticityStressUpdate::updateState().
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Number of yield functions.
Definition at line 143 of file MultiParameterPlasticityStressUpdate.h.
Referenced by TensileStressUpdate::computeAllQV(), CappedMohrCoulombStressUpdate::computeAllQV(), MultiParameterPlasticityStressUpdate::initQpStatefulProperties(), MultiParameterPlasticityStressUpdate::smoothAllQuantities(), MultiParameterPlasticityStressUpdate::updateState(), and MultiParameterPlasticityStressUpdate::yieldF().
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Trial value of p.
Definition at line 38 of file TwoParameterPlasticityStressUpdate.h.
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Initialize the NR proceedure from a guess coming from perfect plasticity.
Definition at line 58 of file CappedWeakPlaneStressUpdate.h.
Referenced by CappedWeakPlaneStressUpdate::initializeVars().
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Whether to perform finite-strain rotations.
Definition at line 152 of file MultiParameterPlasticityStressUpdate.h.
Referenced by finalizeReturnProcess(), and initializeReturnProcess().
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plastic strain
Definition at line 180 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::initQpStatefulProperties(), MultiParameterPlasticityStressUpdate::propagateQpStatefulProperties(), and MultiParameterPlasticityStressUpdate::updateState().
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Old value of plastic strain.
Definition at line 183 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::propagateQpStatefulProperties(), and MultiParameterPlasticityStressUpdate::updateState().
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Trial value of q.
Definition at line 41 of file TwoParameterPlasticityStressUpdate.h.
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Rotation matrix that rotates _n to "z".
Definition at line 50 of file CappedWeakInclinedPlaneStressUpdate.h.
Referenced by CappedWeakInclinedPlaneStressUpdate(), computePQ(), d2qdstress2(), dqdstress(), initializeReturnProcess(), and preReturnMap().
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Rotation matrix that rotates "z" to _n.
Definition at line 53 of file CappedWeakInclinedPlaneStressUpdate.h.
Referenced by CappedWeakInclinedPlaneStressUpdate(), d2qdstress2(), dpdstress(), dqdstress(), initializeReturnProcess(), and setStressAfterReturn().
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Elasticity tensor rotated to the frame where _n points along "z".
Definition at line 59 of file CappedWeakInclinedPlaneStressUpdate.h.
Referenced by preReturnMap(), setEppEqq(), and setStressAfterReturn().
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Trial stress rotated to the frame where _n points along "z".
Definition at line 56 of file CappedWeakInclinedPlaneStressUpdate.h.
Referenced by preReturnMap(), and setStressAfterReturn().
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The cone vertex is smoothed by this amount.
Definition at line 55 of file CappedWeakPlaneStressUpdate.h.
Referenced by CappedWeakPlaneStressUpdate::computeAllQ(), and CappedWeakPlaneStressUpdate::yieldFunctionValues().
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Smoothing tolerance: edges of the yield surface get smoothed by this amount.
Definition at line 155 of file MultiParameterPlasticityStressUpdate.h.
Referenced by CappedDruckerPragerStressUpdate::CappedDruckerPragerStressUpdate(), CappedWeakPlaneStressUpdate::CappedWeakPlaneStressUpdate(), MultiParameterPlasticityStressUpdate::dsmoother(), MultiParameterPlasticityStressUpdate::ismoother(), MultiParameterPlasticityStressUpdate::smoothAllQuantities(), MultiParameterPlasticityStressUpdate::smoother(), and MultiParameterPlasticityStressUpdate::yieldF().
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Square of the smoothing tolerance.
Definition at line 158 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::ismoother().
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handles case of initial_stress that is inadmissible being supplied
Definition at line 174 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::updateState().
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protectedinherited |
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Hardening model for tan(phi)
Definition at line 43 of file CappedWeakPlaneStressUpdate.h.
Referenced by CappedWeakPlaneStressUpdate::CappedWeakPlaneStressUpdate(), CappedWeakPlaneStressUpdate::computeAllQ(), CappedWeakPlaneStressUpdate::initializeVars(), and CappedWeakPlaneStressUpdate::yieldFunctionValues().
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Hardening model for tan(psi)
Definition at line 46 of file CappedWeakPlaneStressUpdate.h.
Referenced by CappedWeakPlaneStressUpdate::CappedWeakPlaneStressUpdate(), CappedWeakPlaneStressUpdate::computeAllQ(), CappedWeakPlaneCosseratStressUpdate::consistentTangentOperator(), CappedWeakPlaneStressUpdate::consistentTangentOperator(), CappedWeakPlaneStressUpdate::initializeVars(), CappedWeakPlaneStressUpdate::setIntnlDerivatives(), and CappedWeakPlaneStressUpdate::setIntnlValues().
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Internal dimensionality of tensors (currently this is 3 throughout tensor_mechanics)
Definition at line 125 of file MultiParameterPlasticityStressUpdate.h.
Referenced by CappedWeakPlaneCosseratStressUpdate::consistentTangentOperator(), CappedDruckerPragerCosseratStressUpdate::consistentTangentOperator(), CappedWeakPlaneStressUpdate::consistentTangentOperator(), CappedDruckerPragerStressUpdate::consistentTangentOperator(), TwoParameterPlasticityStressUpdate::consistentTangentOperator(), CappedMohrCoulombCosseratStressUpdate::consistentTangentOperatorV(), TensileStressUpdate::consistentTangentOperatorV(), CappedMohrCoulombStressUpdate::consistentTangentOperatorV(), and CappedWeakPlaneStressUpdate::d2qdstress2().
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Hardening model for tensile strength.
Definition at line 49 of file CappedWeakPlaneStressUpdate.h.
Referenced by CappedWeakPlaneStressUpdate::CappedWeakPlaneStressUpdate(), CappedWeakPlaneStressUpdate::computeAllQ(), CappedWeakPlaneStressUpdate::initializeVars(), and CappedWeakPlaneStressUpdate::yieldFunctionValues().
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Output a warning message if precision loss is encountered during the return-map process.
Definition at line 177 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::updateState().
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yield functions
Definition at line 192 of file MultiParameterPlasticityStressUpdate.h.
Referenced by MultiParameterPlasticityStressUpdate::initQpStatefulProperties(), and MultiParameterPlasticityStressUpdate::updateState().