#include <structuralslipfe2material.h>

Inheritance diagram for oofem::StructuralSlipFE2Material:

Collaboration diagram for oofem::StructuralSlipFE2Material:

Public Member Functions
	StructuralSlipFE2Material (int n, Domain *d)
void	initializeFrom (InputRecord &ir) override
void	giveInputRecord (DynamicInputRecord &input) override
const char *	giveInputRecordName () const override
const char *	giveClassName () const override
FloatMatrixF< 3, 3 >	givePlaneStressStiffMtrx (MatResponseMode mmode, GaussPoint gp, TimeStep tStep) const override
FloatArrayF< 3 >	giveRealStressVector_PlaneStress (const FloatArrayF< 3 > &strain, GaussPoint gp, TimeStep tStep) const override
	Default implementation relies on giveRealStressVector_StressControl.
std::unique_ptr< MaterialStatus >	CreateStatus (GaussPoint *gp) const override
virtual void	giveHomogenizedFields (FloatArray &stress, FloatArray &bStress, FloatArray &rStress, const FloatArray &strain, const FloatArray &slip, const FloatArray &slipGradient, GaussPoint gp, TimeStep tStep)
virtual void	giveSensitivities (FloatMatrix &dStressdEps, FloatMatrix &dStressdS, FloatMatrix &dStressdG, FloatMatrix &dBStressdEps, FloatMatrix &dBStressdS, FloatMatrix &dBStressdG, FloatMatrix &dRStressdEps, FloatMatrix &dRStressdS, FloatMatrix &dRStressdG, MatResponseMode mode, GaussPoint gp, TimeStep tStep)
Public Member Functions inherited from oofem::StructuralFE2Material
	StructuralFE2Material (int n, Domain *d)
bool	isCharacteristicMtrxSymmetric (MatResponseMode rMode) const override
FloatArrayF< 6 >	giveRealStressVector_3d (const FloatArrayF< 6 > &strain, GaussPoint gp, TimeStep tStep) const override
	Default implementation relies on giveRealStressVector for second Piola-Kirchoff stress.
FloatMatrixF< 6, 6 >	give3dMaterialStiffnessMatrix (MatResponseMode mode, GaussPoint gp, TimeStep tStep) const override
FloatMatrixF< 4, 4 >	givePlaneStrainStiffMtrx (MatResponseMode mode, GaussPoint gp, TimeStep tStep) const override
Public Member Functions inherited from oofem::StructuralMaterial
	StructuralMaterial (int n, Domain *d)
bool	hasMaterialModeCapability (MaterialMode mode) const override
void	giveCharacteristicMatrix (FloatMatrix &answer, MatResponseMode type, GaussPoint gp, TimeStep tStep) const override
	Returns characteristic matrix of the receiver.
void	giveCharacteristicVector (FloatArray &answer, FloatArray &flux, MatResponseMode type, GaussPoint gp, TimeStep tStep) const override
	Returns characteristic vector of the receiver.
virtual void	giveStiffnessMatrix (FloatMatrix &answer, MatResponseMode mode, GaussPoint gp, TimeStep tStep) const
virtual void	giveRealStressVector (FloatArray &answer, GaussPoint gp, const FloatArray &reducedStrain, TimeStep tStep) const
virtual FloatArrayF< 4 >	giveRealStressVector_PlaneStrain (const FloatArrayF< 4 > &strain, GaussPoint gp, TimeStep tStep) const
	Default implementation relies on giveRealStressVector_3d.
virtual FloatArray	giveRealStressVector_StressControl (const FloatArray &reducedE, const IntArray &strainControl, GaussPoint gp, TimeStep tStep) const
	Iteratively calls giveRealStressVector_3d to find the stress controlled equal to zero·
virtual FloatArray	giveRealStressVector_ShellStressControl (const FloatArray &reducedE, const IntArray &strainControl, GaussPoint gp, TimeStep tStep) const
virtual FloatArrayF< 1 >	giveRealStressVector_1d (const FloatArrayF< 1 > &reducedE, GaussPoint gp, TimeStep tStep) const
	Default implementation relies on giveRealStressVector_StressControl.
virtual FloatArrayF< 2 >	giveRealStressVector_Warping (const FloatArrayF< 2 > &reducedE, GaussPoint gp, TimeStep tStep) const
	Default implementation relies on giveRealStressVector_StressControl.
virtual FloatArrayF< 2 >	giveRealStressVector_2dBeamLayer (const FloatArrayF< 2 > &reducedE, GaussPoint gp, TimeStep tStep) const
	Default implementation relies on giveRealStressVector_StressControl.
virtual FloatArrayF< 5 >	giveRealStressVector_PlateLayer (const FloatArrayF< 5 > &reducedE, GaussPoint gp, TimeStep tStep) const
	Default implementation relies on giveRealStressVector_StressControl.
virtual FloatArrayF< 3 >	giveRealStressVector_Fiber (const FloatArrayF< 3 > &reducedE, GaussPoint gp, TimeStep tStep) const
	Default implementation relies on giveRealStressVector_StressControl.
virtual FloatArrayF< 3 >	giveRealStressVector_2dPlateSubSoil (const FloatArrayF< 3 > &reducedE, GaussPoint gp, TimeStep tStep) const
	Default implementation is not provided.
virtual FloatArrayF< 6 >	giveRealStressVector_3dBeamSubSoil (const FloatArrayF< 6 > &reducedE, GaussPoint gp, TimeStep tStep) const
virtual FloatArrayF< 9 >	giveFirstPKStressVector_3d (const FloatArrayF< 9 > &vF, GaussPoint gp, TimeStep tStep) const
	Default implementation relies on giveRealStressVector for second Piola-Kirchoff stress.
virtual FloatArrayF< 5 >	giveFirstPKStressVector_PlaneStrain (const FloatArrayF< 5 > &vF, GaussPoint gp, TimeStep tStep) const
	Default implementation relies on giveFirstPKStressVector_3d.
virtual FloatArray	giveFirstPKStressVector_StressControl (const FloatArray &reducedvF, const IntArray &FControl, GaussPoint gp, TimeStep tStep) const
	Iteratively calls giveRealStressVector_3d to find the stress controlled equal to zero·
virtual FloatArrayF< 4 >	giveFirstPKStressVector_PlaneStress (const FloatArrayF< 4 > &vF, GaussPoint gp, TimeStep tStep) const
	Default implementation relies on giveFirstPKStressVector_StressControl.
virtual FloatArrayF< 1 >	giveFirstPKStressVector_1d (const FloatArrayF< 1 > &vF, GaussPoint gp, TimeStep tStep) const
	Default implementation relies on giveFirstPKStressVector_StressControl.
virtual void	giveCauchyStressVector_3d (FloatArray &answer, GaussPoint gp, const FloatArray &reducedF, TimeStep tStep)
virtual void	giveCauchyStressVector_PlaneStrain (FloatArray &answer, GaussPoint gp, const FloatArray &reducedF, TimeStep tStep)
virtual void	giveCauchyStressVector_PlaneStress (FloatArray &answer, GaussPoint gp, const FloatArray &reducedF, TimeStep tStep)
virtual void	giveCauchyStressVector_1d (FloatArray &answer, GaussPoint gp, const FloatArray &reducedF, TimeStep tStep)
virtual void	giveEshelbyStressVector_PlaneStrain (FloatArray &answer, GaussPoint gp, const FloatArray &reducedF, TimeStep tStep)
virtual FloatArrayF< 6 >	giveThermalDilatationVector (GaussPoint gp, TimeStep tStep) const
double	giveReferenceTemperature ()
virtual FloatArray	computeStressIndependentStrainVector (GaussPoint gp, TimeStep tStep, ValueModeType mode) const
FloatArrayF< 6 >	computeStressIndependentStrainVector_3d (GaussPoint gp, TimeStep tStep, ValueModeType mode) const
virtual void	giveStiffnessMatrix_dPdF (FloatMatrix &answer, MatResponseMode mode, GaussPoint gp, TimeStep tStep)
virtual FloatMatrixF< 9, 9 >	give3dMaterialStiffnessMatrix_dPdF (MatResponseMode mode, GaussPoint gp, TimeStep tStep) const
virtual void	give3dMaterialStiffnessMatrix_dCde (FloatMatrix &answer, MatResponseMode mode, GaussPoint gp, TimeStep tStep)
void	giveStressDependentPartOfStrainVector (FloatArray &answer, GaussPoint gp, const FloatArray &reducedStrainVector, TimeStep tStep, ValueModeType mode) const
int	setIPValue (const FloatArray &value, GaussPoint *gp, InternalStateType type) override
int	giveIPValue (FloatArray &answer, GaussPoint gp, InternalStateType type, TimeStep tStep) override
virtual FloatMatrixF< 4, 4 >	givePlaneStressStiffnessMatrix_dPdF (MatResponseMode mmode, GaussPoint gp, TimeStep tStep) const
virtual void	givePlaneStressStiffMtrx_dCde (FloatMatrix &answer, MatResponseMode mmode, GaussPoint gp, TimeStep tStep)
virtual FloatMatrixF< 5, 5 >	givePlaneStrainStiffnessMatrix_dPdF (MatResponseMode mmode, GaussPoint gp, TimeStep tStep) const
virtual void	givePlaneStrainStiffMtrx_dCde (FloatMatrix &answer, MatResponseMode mmode, GaussPoint gp, TimeStep tStep)
virtual FloatMatrixF< 1, 1 >	give1dStressStiffMtrx (MatResponseMode mmode, GaussPoint gp, TimeStep tStep) const
virtual FloatMatrixF< 1, 1 >	give1dStressStiffnessMatrix_dPdF (MatResponseMode mmode, GaussPoint gp, TimeStep tStep) const
virtual void	give1dStressStiffMtrx_dCde (FloatMatrix &answer, MatResponseMode mmode, GaussPoint gp, TimeStep tStep)
virtual FloatMatrixF< 2, 2 >	give2dBeamLayerStiffMtrx (MatResponseMode mmode, GaussPoint gp, TimeStep tStep) const
virtual FloatMatrixF< 5, 5 >	givePlateLayerStiffMtrx (MatResponseMode mmode, GaussPoint gp, TimeStep tStep) const
virtual FloatMatrixF< 3, 3 >	giveFiberStiffMtrx (MatResponseMode mmode, GaussPoint gp, TimeStep tStep) const
virtual FloatMatrixF< 3, 3 >	give2dPlateSubSoilStiffMtrx (MatResponseMode mmode, GaussPoint gp, TimeStep tStep) const
virtual FloatMatrixF< 6, 6 >	give3dBeamSubSoilStiffMtrx (MatResponseMode mmode, GaussPoint gp, TimeStep tStep) const
Public Member Functions inherited from oofem::Material
	Material (int n, Domain *d)
virtual	~Material ()=default
	Destructor.
virtual double	giveCharacteristicValue (MatResponseMode type, GaussPoint gp, TimeStep tStep) const
	Returns characteristic value of the receiver.
virtual double	give (int aProperty, GaussPoint *gp) const
virtual bool	hasProperty (int aProperty, GaussPoint *gp) const
virtual void	modifyProperty (int aProperty, double value, GaussPoint *gp)
double	giveCastingTime () const
virtual bool	isActivated (TimeStep *tStep) const
virtual bool	hasCastingTimeSupport () const
void	printYourself () override
	Prints receiver state on stdout. Useful for debugging.
virtual void	saveIPContext (DataStream &stream, ContextMode mode, GaussPoint *gp)
virtual void	restoreIPContext (DataStream &stream, ContextMode mode, GaussPoint *gp)
int	checkConsistency () override
virtual void	restoreConsistency (GaussPoint *gp)
virtual int	initMaterial (Element *element)
virtual MaterialStatus *	giveStatus (GaussPoint *gp) const
virtual int	packUnknowns (DataStream &buff, TimeStep tStep, GaussPoint ip)
virtual int	unpackAndUpdateUnknowns (DataStream &buff, TimeStep tStep, GaussPoint ip)
virtual int	estimatePackSize (DataStream &buff, GaussPoint *ip)
virtual double	predictRelativeComputationalCost (GaussPoint *gp)
virtual double	predictRelativeRedistributionCost (GaussPoint *gp)
virtual void	initTempStatus (GaussPoint *gp) const
void	saveContext (DataStream &stream, ContextMode mode) override
void	restoreContext (DataStream &stream, ContextMode mode) override
Public Member Functions inherited from oofem::FEMComponent
	FEMComponent (int n, Domain *d)
virtual	~FEMComponent ()=default
	Virtual destructor.
Domain *	giveDomain () const
virtual void	setDomain (Domain *d)
int	giveNumber () const
void	setNumber (int num)
virtual void	updateLocalNumbering (EntityRenumberingFunctor &f)
virtual void	initializeFrom (InputRecord &ir, int priority)
virtual void	initializeFinish ()
virtual void	postInitialize ()
	Performs post initialization steps. Called after all components are created and initialized.
virtual void	printOutputAt (FILE file, TimeStep tStep)
virtual Interface *	giveInterface (InterfaceType t)
std::string	errorInfo (const char *func) const
	Returns string for prepending output (used by error reporting macros).

Protected Attributes
bool	useExtStiff = false
bool	allGPRes = false
IntArray	outputSelected
FloatMatrix	givendStressdEpsTangent
FloatMatrix	givendBStressdEpsTangent
FloatMatrix	givendRStressdEpsTangent
FloatMatrix	givendStressdSTangent
FloatMatrix	givendBStressdSTangent
FloatMatrix	givendRStressdSTangent
FloatMatrix	givendStressdGTangent
FloatMatrix	givendBStressdGTangent
FloatMatrix	givendRStressdGTangent
Protected Attributes inherited from oofem::StructuralFE2Material
std::string	inputfile
bool	useNumTangent = false
Protected Attributes inherited from oofem::StructuralMaterial
double	referenceTemperature = 0.
	Reference temperature (temperature, when material has been built into structure).
MatResponseMode	SCStiffMode = TangentStiffness
	stifness mode used in stress control
double	SCRelTol = 1.e-3
	relative tolerance for stress control
double	SCAbsTol = 1.e-12
	absolute stress tolerance for stress control
int	SCMaxiter = 100000
	maximum iterations for stress-control
Protected Attributes inherited from oofem::Material
Dictionary	propertyDictionary
double	castingTime
int	preCastingTimeMat
	Material existing before casting time - optional parameter, zero by default.
Protected Attributes inherited from oofem::FEMComponent
int	number
	Component number.
Domain *	domain
	Link to domain object, useful for communicating with other FEM components.

Additional Inherited Members
Static Public Member Functions inherited from oofem::StructuralMaterial
static int	giveSymVI (int ind1, int ind2)
static int	giveVI (int ind1, int ind2)
static FloatMatrixF< 9, 9 >	convert_dSdE_2_dPdF_3D (const FloatMatrixF< 6, 6 > &dSdE, const FloatArrayF< 6 > &S, const FloatArrayF< 9 > &F)
static FloatMatrixF< 5, 5 >	convert_dSdE_2_dPdF_PlaneStrain (const FloatMatrixF< 4, 4 > &dSdE, const FloatArrayF< 4 > &S, const FloatArrayF< 5 > &F)
static FloatMatrixF< 4, 4 >	convert_dSdE_2_dPdF_PlaneStress (const FloatMatrixF< 3, 3 > &dSdE, const FloatArrayF< 3 > &S, const FloatArrayF< 4 > &F)
static FloatMatrixF< 1, 1 >	convert_dSdE_2_dPdF_1D (const FloatMatrixF< 1, 1 > &dSdE, const FloatArrayF< 1 > &S, const FloatArrayF< 1 > &F)
static void	computePrincipalValues (FloatArray &answer, const FloatArray &s, stressStrainPrincMode mode)
	Common functions for convenience.
static FloatArrayF< 3 >	computePrincipalValues (const FloatMatrixF< 3, 3 > &s)
static FloatArrayF< 3 >	computePrincipalValues (double I1, double I2, double I3)
static void	computePrincipalValDir (FloatArray &answer, FloatMatrix &dir, const FloatArray &s, stressStrainPrincMode mode)
static std::pair< FloatArrayF< 3 >, FloatMatrixF< 3, 3 > >	computePrincipalValDir (const FloatMatrixF< 3, 3 > &s)
static FloatArrayF< 6 >	computeDeviator (const FloatArrayF< 6 > &s)
static std::pair< FloatArrayF< 6 >, double >	computeDeviatoricVolumetricSplit (const FloatArrayF< 6 > &s)
static FloatArrayF< 6 >	computeDeviatoricVolumetricSum (const FloatArrayF< 6 > &dev, double mean)
static FloatArrayF< 6 >	applyDeviatoricElasticCompliance (const FloatArrayF< 6 > &stress, double EModulus, double nu)
static FloatArrayF< 6 >	applyDeviatoricElasticCompliance (const FloatArrayF< 6 > &stress, double GModulus)
static FloatArrayF< 6 >	applyDeviatoricElasticStiffness (const FloatArrayF< 6 > &strain, double EModulus, double nu)
static FloatArrayF< 6 >	applyDeviatoricElasticStiffness (const FloatArrayF< 6 > &strain, double GModulus)
static FloatArrayF< 6 >	applyElasticStiffness (const FloatArrayF< 6 > &strain, double EModulus, double nu)
static FloatArrayF< 6 >	applyElasticCompliance (const FloatArrayF< 6 > &stress, double EModulus, double nu)
static double	computeStressNorm (const FloatArrayF< 6 > &stress)
static double	computeFirstInvariant (const FloatArrayF< 6 > &s)
static double	computeSecondStressInvariant (const FloatArrayF< 6 > &s)
static double	computeThirdStressInvariant (const FloatArrayF< 6 > &s)
static double	computeFirstCoordinate (const FloatArrayF< 6 > &s)
static double	computeSecondCoordinate (const FloatArrayF< 6 > &s)
static double	computeThirdCoordinate (const FloatArrayF< 6 > &s)
static int	giveVoigtVectorMask (IntArray &answer, MaterialMode mmode)
static int	giveVoigtSymVectorMask (IntArray &answer, MaterialMode mmode)
static void	giveInvertedVoigtVectorMask (IntArray &answer, MaterialMode mmode)
static int	giveSizeOfVoigtVector (MaterialMode mmode)
static int	giveSizeOfVoigtSymVector (MaterialMode mmode)
static void	giveFullVectorForm (FloatArray &answer, const FloatArray &strainVector, MaterialMode matMode)
	Converts the reduced symmetric Voigt vector (2nd order tensor) to full form.
static void	giveFullVectorFormF (FloatArray &answer, const FloatArray &strainVector, MaterialMode matMode)
	Converts the reduced deformation gradient Voigt vector (2nd order tensor).
static void	giveFullSymVectorForm (FloatArray &answer, const FloatArray &vec, MaterialMode matMode)
	Converts the reduced unsymmetric Voigt vector (2nd order tensor) to full form.
static void	giveReducedVectorForm (FloatArray &answer, const FloatArray &vec, MaterialMode matMode)
	Converts the full symmetric Voigt vector (2nd order tensor) to reduced form.
static void	giveReducedSymVectorForm (FloatArray &answer, const FloatArray &vec, MaterialMode matMode)
	Converts the full unsymmetric Voigt vector (2nd order tensor) to reduced form.
static void	giveFullSymMatrixForm (FloatMatrix &answer, const FloatMatrix &red, MaterialMode matMode)
	Converts the full unsymmetric Voigt matrix (4th order tensor) to reduced form.
static void	giveReducedMatrixForm (FloatMatrix &answer, const FloatMatrix &full, MaterialMode matMode)
	Converts the full symmetric Voigt matrix (4th order tensor) to reduced form.
static void	giveReducedSymMatrixForm (FloatMatrix &answer, const FloatMatrix &full, MaterialMode matMode)
	Converts the full unsymmetric Voigt matrix (4th order tensor) to reduced form.
static FloatArrayF< 6 >	transformStrainVectorTo (const FloatMatrixF< 3, 3 > &base, const FloatArrayF< 6 > &strain, bool transpose=false)
static FloatArrayF< 6 >	transformStressVectorTo (const FloatMatrixF< 3, 3 > &base, const FloatArrayF< 6 > &stress, bool transpose=false)
static double	computeVonMisesStress (const FloatArray &currentStress)
static double	computeVonMisesStress_3D (const FloatArrayF< 6 > &stress)
static double	computeVonMisesStress_PlaneStress (const FloatArrayF< 3 > &stress)
static FloatMatrixF< 6, 6 >	giveStrainVectorTranformationMtrx (const FloatMatrixF< 3, 3 > &base, bool transpose=false)
static FloatMatrixF< 3, 3 >	give2DStrainVectorTranformationMtrx (const FloatMatrixF< 2, 2 > &base, bool transpose=false)
static FloatMatrixF< 6, 6 >	giveStressVectorTranformationMtrx (const FloatMatrixF< 3, 3 > &base, bool transpose=false)
static FloatMatrixF< 3, 3 >	givePlaneStressVectorTranformationMtrx (const FloatMatrixF< 2, 2 > &base, bool transpose=false)
static void	sortPrincDirAndValCloseTo (FloatArray &pVal, FloatMatrix &pDir, const FloatMatrix &toPDir)
Static Public Attributes inherited from oofem::StructuralMaterial
static std::array< std::array< int, 3 >, 3 >	vIindex
	Voigt index map.
static std::array< std::array< int, 3 >, 3 >	svIndex
	Symmetric Voigt index map.
Static Protected Attributes inherited from oofem::StructuralFE2Material
static int	n = 1

Detailed Description

Multiscale constitutive model for structural problems on reinforced concrete structures. At the macroscale, both the displacement and reinforcement slip can be treated as variables. Currently, only plane stress mode is supported.

This material uses the PrescribedDispSlip boundary conditions to perform computational homogenization. The requirement for the supplied subscale problem is:

It must have a PrescribedDispSlip boundary condition.
It must be the first boundary condition

The following boundary conditions on the RVE are supported (must use PrescribedDispSlipHomogenization class):

PrescribedDispSlipBCDirichletRC (macroscopic displacement gradient, slip and slip gradient prescribed with Dirichlet BCs on concrete and optionally on reinforcement)
PrescribedDispSlipBCNeumannRC (macroscopic displacement gradient, slip and slip gradient prescribed with Neumann BCs on concrete and optionally on reinforcement)
PrescribedDispSlipMultiple (for combining more than one PrescribedDispSlip boundary condition on the RVE) Input fields slip and slipGrad are optional. If left unspecified, the BCs work then as usual PrescribedGradient BCs (PrescribedGradient, PrescribedGradientBCNeumann)

refs: Sciegaj, A., Larsson, F., Lundgren, K., Nilenius, F., & Runesson, K. (2018). Two‐scale finite element modelling of reinforced concrete structures: Effective response and subscale fracture development. International Journal for Numerical Methods in Engineering, 114(10), 1074–1102. https://doi.org/10.1002/nme.5776 Sciegaj, A., Larsson, F., Lundgren, K., Nilenius, F., & Runesson, K. (2019). A multiscale model for reinforced concrete with macroscopic variation of reinforcement slip. Computational Mechanics, 63(2), 139–158. https://doi.org/10.1007/s00466-018-1588-3 Sciegaj, A., Larsson, F., Lundgren, K., & Runesson, K. (2020). On a volume averaged measure of macroscopic reinforcement slip in two-scale modeling of reinforced concrete. International Journal for Numerical Methods in Engineering, 121(8), 1822–1846. https://doi.org/10.1002/nme.6288

Author: Adam Sciegaj

Definition at line 169 of file structuralslipfe2material.h.

Constructor & Destructor Documentation

◆ StructuralSlipFE2Material()

oofem::StructuralSlipFE2Material::StructuralSlipFE2Material	(	int	n,
		Domain *	d )

Definition at line 63 of file structuralslipfe2material.C.

References oofem::StructuralFE2Material::n, and oofem::StructuralFE2Material::StructuralFE2Material().

Member Function Documentation

◆ CreateStatus()

std::unique_ptr< MaterialStatus > oofem::StructuralSlipFE2Material::CreateStatus ( GaussPoint * gp ) const

overridevirtual

Creates new copy of associated status and inserts it into given integration point.

Parameters

gp	Integration point where newly created status will be stored.

Returns: Reference to new status.

Reimplemented from oofem::StructuralFE2Material.

Definition at line 104 of file structuralslipfe2material.C.

References allGPRes, oofem::FEMComponent::domain, oofem::GaussPoint::giveElement(), oofem::Element::giveGlobalNumber(), oofem::GaussPoint::giveNumber(), oofem::StructuralFE2Material::inputfile, and outputSelected.

◆ giveClassName()

const char * oofem::StructuralSlipFE2Material::giveClassName ( ) const

inlineoverridevirtual

Returns: Class name of the receiver.

Reimplemented from oofem::StructuralFE2Material.

Definition at line 194 of file structuralslipfe2material.h.

◆ giveHomogenizedFields()

void oofem::StructuralSlipFE2Material::giveHomogenizedFields	(	FloatArray &	stress,
		FloatArray &	bStress,
		FloatArray &	rStress,
		const FloatArray &	strain,
		const FloatArray &	slip,
		const FloatArray &	slipGradient,
		GaussPoint *	gp,
		TimeStep *	tStep )

virtual

Computes the homogenized stress, homogenized bond stress and reinforcement stress for the createRVE

Definition at line 191 of file structuralslipfe2material.C.

Referenced by oofem::QPlaneStress2dSlip::giveHomogenizedFields(), oofem::QTrPlaneStress2dSlip::giveHomogenizedFields(), and giveSensitivities().

◆ giveInputRecord()

void oofem::StructuralSlipFE2Material::giveInputRecord ( DynamicInputRecord & input )

overridevirtual

Setups the input record string of receiver.

Parameters

input Dynamic input record to be filled by receiver.

Reimplemented from oofem::StructuralFE2Material.

Definition at line 89 of file structuralslipfe2material.C.

References _IFT_StructuralSlipFE2Material_allGPResults, _IFT_StructuralSlipFE2Material_dStressdEps, _IFT_StructuralSlipFE2Material_outputSelectedResults, _IFT_StructuralSlipFE2Material_useExternalStiffness, allGPRes, givendStressdEpsTangent, outputSelected, oofem::DynamicInputRecord::setField(), and useExtStiff.

◆ giveInputRecordName()

const char * oofem::StructuralSlipFE2Material::giveInputRecordName ( ) const

inlineoverridevirtual

Returns: Input record name of the receiver.

Reimplemented from oofem::StructuralFE2Material.

Definition at line 193 of file structuralslipfe2material.h.

References _IFT_StructuralSlipFE2Material_Name.

◆ givePlaneStressStiffMtrx()

FloatMatrixF< 3, 3 > oofem::StructuralSlipFE2Material::givePlaneStressStiffMtrx	(	MatResponseMode	mmode,
		GaussPoint *	gp,
		TimeStep *	tStep ) const

overridevirtual

Method for computing plane stress stiffness matrix of receiver. Default implementation computes 3d stiffness matrix using give3dMaterialStiffnessMatrix and reduces it to plane stress stiffness using reduce method described above. However, this reduction is quite time consuming and if it is possible, it is recommended to overload this method and provide direct method for computing particular stiffness matrix.

Parameters

answer	Stiffness matrix.
mmode	Material response mode.
gp	Integration point, which load history is used.
tStep	Time step (most models are able to respond only when tStep is current time step).

Reimplemented from oofem::StructuralFE2Material.

Definition at line 138 of file structuralslipfe2material.C.

References oofem::FloatMatrix::beSubMatrixOf(), givendStressdEpsTangent, oofem::StructuralFE2Material::givePlaneStressStiffMtrx(), oofem::Material::giveStatus(), useExtStiff, and oofem::StructuralFE2Material::useNumTangent.

◆ giveRealStressVector_PlaneStress()

FloatArrayF< 3 > oofem::StructuralSlipFE2Material::giveRealStressVector_PlaneStress	(	const FloatArrayF< 3 > &	reducedE,
		GaussPoint *	gp,
		TimeStep *	tStep ) const

overridevirtual

Default implementation relies on giveRealStressVector_StressControl.

Reimplemented from oofem::StructuralFE2Material.

Definition at line 161 of file structuralslipfe2material.C.

References oofem::Material::giveStatus(), and oofem::StructuralSlipFE2MaterialStatus::setTimeStep().

◆ giveSensitivities()

void oofem::StructuralSlipFE2Material::giveSensitivities	(	FloatMatrix &	dStressdEps,
		FloatMatrix &	dStressdS,
		FloatMatrix &	dStressdG,
		FloatMatrix &	dBStressdEps,
		FloatMatrix &	dBStressdS,
		FloatMatrix &	dBStressdG,
		FloatMatrix &	dRStressdEps,
		FloatMatrix &	dRStressdS,
		FloatMatrix &	dRStressdG,
		MatResponseMode	mode,
		GaussPoint *	gp,
		TimeStep *	tStep )

virtual

Computes the sensitivity matrices for the RVE. Necessary for building the stiffness matrix.

Definition at line 228 of file structuralslipfe2material.C.

Referenced by oofem::QPlaneStress2dSlip::giveSensitivities(), and oofem::QTrPlaneStress2dSlip::giveSensitivities().

◆ initializeFrom()

void oofem::StructuralSlipFE2Material::initializeFrom ( InputRecord & ir )

overridevirtual

Initializes receiver according to object description stored in input record. This function is called immediately after creating object using constructor. Input record can be imagined as data record in component database belonging to receiver. Receiver may use value-name extracting functions to extract particular field from record. Note that initializeFrom may be called mutiple times.

See also: IR_GIVE_FIELD; IR_GIVE_OPTIONAL_FIELD

Parameters

ir	Input record to initialize from.
priority	Priority of the input record. This is used to determine the order of initialization

Reimplemented from oofem::StructuralFE2Material.

Definition at line 68 of file structuralslipfe2material.C.

Member Data Documentation

◆ allGPRes

bool oofem::StructuralSlipFE2Material::allGPRes = false

protected

Definition at line 173 of file structuralslipfe2material.h.

Referenced by CreateStatus(), giveInputRecord(), and initializeFrom().

◆ givendBStressdEpsTangent

FloatMatrix oofem::StructuralSlipFE2Material::givendBStressdEpsTangent

protected

Definition at line 184 of file structuralslipfe2material.h.

Referenced by giveSensitivities(), and initializeFrom().

◆ givendBStressdGTangent

FloatMatrix oofem::StructuralSlipFE2Material::givendBStressdGTangent

protected

Definition at line 186 of file structuralslipfe2material.h.

Referenced by giveSensitivities(), and initializeFrom().

◆ givendBStressdSTangent

FloatMatrix oofem::StructuralSlipFE2Material::givendBStressdSTangent

protected

Definition at line 185 of file structuralslipfe2material.h.

Referenced by giveSensitivities(), and initializeFrom().

◆ givendRStressdEpsTangent

FloatMatrix oofem::StructuralSlipFE2Material::givendRStressdEpsTangent

protected

Definition at line 184 of file structuralslipfe2material.h.

Referenced by giveSensitivities(), and initializeFrom().

◆ givendRStressdGTangent

FloatMatrix oofem::StructuralSlipFE2Material::givendRStressdGTangent

protected

Definition at line 186 of file structuralslipfe2material.h.

Referenced by giveSensitivities(), and initializeFrom().

◆ givendRStressdSTangent

FloatMatrix oofem::StructuralSlipFE2Material::givendRStressdSTangent

protected

Definition at line 185 of file structuralslipfe2material.h.

Referenced by giveSensitivities(), and initializeFrom().

◆ givendStressdEpsTangent

FloatMatrix oofem::StructuralSlipFE2Material::givendStressdEpsTangent

protected

Definition at line 183 of file structuralslipfe2material.h.

Referenced by giveInputRecord(), givePlaneStressStiffMtrx(), giveSensitivities(), and initializeFrom().

◆ givendStressdGTangent

FloatMatrix oofem::StructuralSlipFE2Material::givendStressdGTangent

protected

Definition at line 186 of file structuralslipfe2material.h.

Referenced by giveSensitivities(), and initializeFrom().

◆ givendStressdSTangent

FloatMatrix oofem::StructuralSlipFE2Material::givendStressdSTangent

protected

Definition at line 185 of file structuralslipfe2material.h.

Referenced by giveSensitivities(), and initializeFrom().

◆ outputSelected

IntArray oofem::StructuralSlipFE2Material::outputSelected

protected

FloatArray that contains element and Gauss point number for the desired results to be exported. The syntax in the input file should follow: output_selected_el_gp size elNumber gpNumber e.g. output_selected_el_gp 6 22 4 21 2 20 3 will export Gauss point 4 from el 22, Gauss point 2 from el 21 etc.

Definition at line 180 of file structuralslipfe2material.h.

Referenced by CreateStatus(), giveInputRecord(), and initializeFrom().

◆ useExtStiff

bool oofem::StructuralSlipFE2Material::useExtStiff = false

protected

Definition at line 172 of file structuralslipfe2material.h.

Referenced by giveInputRecord(), givePlaneStressStiffMtrx(), giveSensitivities(), and initializeFrom().

The documentation for this class was generated from the following files:

Public Member Functions

Protected Attributes

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

◆ StructuralSlipFE2Material()

Member Function Documentation

◆ CreateStatus()

◆ giveClassName()

◆ giveHomogenizedFields()

◆ giveInputRecord()

◆ giveInputRecordName()

◆ givePlaneStressStiffMtrx()

◆ giveRealStressVector_PlaneStress()

◆ giveSensitivities()

◆ initializeFrom()

Member Data Documentation

◆ allGPRes

◆ givendBStressdEpsTangent

◆ givendBStressdGTangent

◆ givendBStressdSTangent

◆ givendRStressdEpsTangent

◆ givendRStressdGTangent

◆ givendRStressdSTangent

◆ givendStressdEpsTangent

◆ givendStressdGTangent

◆ givendStressdSTangent

◆ outputSelected

◆ useExtStiff