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GeneralizedKelvinVoigtBase Class Referenceabstract

This class represents an assembly of springs and dashpots following a generalized Kelvin-Voigt model (an arbitrary number of Kelvin-Voigt units assembled in series with a single spring at the top). More...

#include <GeneralizedKelvinVoigtBase.h>

Inheritance diagram for GeneralizedKelvinVoigtBase:
[legend]

Public Types

enum  IntegrationRule { IntegrationRule::BackwardEuler, IntegrationRule::MidPoint, IntegrationRule::Newmark, IntegrationRule::Zienkiewicz }
 Determines how theta is calculated for the time-integration system. More...
 

Public Member Functions

 GeneralizedKelvinVoigtBase (const InputParameters &parameters)
 
void recomputeQpApparentProperties (unsigned int qp)
 Compute the apparent properties at a quadrature point. More...
 
bool hasGuarantee (const MaterialPropertyName &prop_name, Guarantee guarantee)
 

Protected Member Functions

virtual void computeQpApparentElasticityTensors () final
 This method computes the apparent elasticity tensor used in the internal time-stepping scheme. More...
 
virtual void computeQpApparentCreepStrain () final
 This method computes the apparent creep strain corresponding to the current viscous_strain of each dashpot. More...
 
virtual void updateQpViscousStrains () final
 Update the internal viscous strains at a quadrature point. More...
 
virtual void initQpStatefulProperties () override
 
virtual void computeQpElasticityTensor () final
 Inherited from ComputeElasticityTensorBase. More...
 
virtual void computeQpViscoelasticProperties ()=0
 This method assigns the mechanical properties of each spring and dashpot in the system. More...
 
virtual void computeQpViscoelasticPropertiesInv ()
 This method computes the inverse elasticity tensor of each spring in the system (if required). More...
 
Real computeTheta (Real dt, Real viscosity) const
 Provides theta as a function of the time step and a viscosity. More...
 
virtual void computeQpProperties ()
 
void issueGuarantee (const MaterialPropertyName &prop_name, Guarantee guarantee)
 
void revokeGuarantee (const MaterialPropertyName &prop_name, Guarantee guarantee)
 

Protected Attributes

IntegrationRule _integration_rule
 Determines how theta is computed. More...
 
Real _theta
 User-defined value for theta. More...
 
MaterialProperty< RankFourTensor > & _apparent_elasticity_tensor
 Apparent elasticity tensor. This is NOT the elasticity tensor of the material. More...
 
MaterialProperty< RankFourTensor > & _apparent_elasticity_tensor_inv
 Inverse of the apparent elasticity tensor. More...
 
MaterialProperty< RankFourTensor > & _instantaneous_elasticity_tensor
 Instantaneous elasticity tensor. This IS the real elasticity tensor of the material. More...
 
MaterialProperty< RankFourTensor > & _instantaneous_elasticity_tensor_inv
 Inverse of the instaneous elasticity tensor. More...
 
bool _need_viscoelastic_properties_inverse
 If active, indicates that we need to call computeQpViscoelasticPropertiesInv() More...
 
bool _has_longterm_dashpot
 Indicates if the spring-dashpot assembly has a single dashpot not associated with a spring. More...
 
unsigned int _components
 This is the number of internal variables required by the model. More...
 
MaterialProperty< RankFourTensor > & _first_elasticity_tensor
 Elasticity tensor of a stand-alone elastic spring in the chain. More...
 
MaterialProperty< RankFourTensor > * _first_elasticity_tensor_inv
 
MaterialProperty< std::vector< RankFourTensor > > & _springs_elasticity_tensors
 List of elasticity tensor of each subsequent spring in the chain. More...
 
MaterialProperty< std::vector< RankFourTensor > > * _springs_elasticity_tensors_inv
 
MaterialProperty< std::vector< Real > > & _dashpot_viscosities
 List of viscosities of each subsequent spring in the chain. More...
 
MaterialProperty< std::vector< RankTwoTensor > > & _viscous_strains
 The internal strain variables required by the time-stepping procedure (generally, on a one-on-one basis with the number of dashpot). More...
 
const MaterialProperty< std::vector< RankTwoTensor > > & _viscous_strains_old
 
MaterialProperty< RankTwoTensor > & _apparent_creep_strain
 The apparent creep strain resulting from the internal viscous strains. More...
 
const MaterialProperty< RankTwoTensor > & _apparent_creep_strain_old
 
const MaterialProperty< RankTwoTensor > & _elastic_strain_old
 previous value of the elastic strain for update purposes More...
 
const MaterialProperty< RankTwoTensor > & _creep_strain_old
 Previous value of the true creep strain for update purposes. More...
 
const MaterialProperty< RankTwoTensor > & _stress_old
 previous value of the stress for update purposes More...
 
bool _has_driving_eigenstrain
 Indicates if the model is only driven by the stress, or also by an additional eigenstrain. More...
 
std::string _driving_eigenstrain_name
 Name of the eigenstrain that drives the additional creep strain. More...
 
const MaterialProperty< RankTwoTensor > * _driving_eigenstrain
 Pointer to the value of the driving eigenstrain. More...
 
bool _force_recompute_properties
 If activated, the time-stepping scheme will be re-initialized at each step of the solver. More...
 
bool & _step_zero
 
std::string _base_name
 
std::string _elasticity_tensor_name
 
MaterialProperty< RankFourTensor > & _elasticity_tensor
 
Function *const _prefactor_function
 prefactor function to multiply the elasticity tensor with More...
 

Detailed Description

This class represents an assembly of springs and dashpots following a generalized Kelvin-Voigt model (an arbitrary number of Kelvin-Voigt units assembled in series with a single spring at the top).

This class does not attribute the mechanical properties to each spring and dashpot. It must be inherited to do so (see GeneralizedKelvinVoigtModel for an example).

This class derives from LinearViscoelasticityBase, and thus contains both the apparent mechanical properties of the material, and the internal variables associated to each of the dashpots in the model. It provides the methods required to perform the time stepping scheme associated with viscoelastic models.

See LinearViscoelasticityBase for more information

Definition at line 33 of file GeneralizedKelvinVoigtBase.h.

Member Enumeration Documentation

Determines how theta is calculated for the time-integration system.

Enumerator
BackwardEuler 

theta = 1

MidPoint 

theta = 0.5

Newmark 

theta defined by the user

Zienkiewicz 

theta automatically adjusted as a function of the time step and the viscosity

Definition at line 85 of file LinearViscoelasticityBase.h.

86  {
88  BackwardEuler,
90  MidPoint,
92  Newmark,
94  Zienkiewicz,
95  };

Constructor & Destructor Documentation

GeneralizedKelvinVoigtBase::GeneralizedKelvinVoigtBase ( const InputParameters &  parameters)

Definition at line 19 of file GeneralizedKelvinVoigtBase.C.

20  : LinearViscoelasticityBase(parameters)
21 {
23 }
LinearViscoelasticityBase(const InputParameters &parameters)
bool _need_viscoelastic_properties_inverse
If active, indicates that we need to call computeQpViscoelasticPropertiesInv()

Member Function Documentation

void GeneralizedKelvinVoigtBase::computeQpApparentCreepStrain ( )
finalprotectedvirtual

This method computes the apparent creep strain corresponding to the current viscous_strain of each dashpot.

It must be called after the apparent elasticity tensors have been calculated.

This method is purely virtual. Inherited classes must override it.

This method is related to the internal time-stepping scheme. It should only be overwritten by classes that inherit directly from LinearViscoelasticityBase, and that represent a different spring-dashpot assembly. See GeneralizedKelvinVoigtBase for example.

Implements LinearViscoelasticityBase.

Definition at line 76 of file GeneralizedKelvinVoigtBase.C.

77 {
78  _apparent_creep_strain[_qp].zero();
79 
80  for (unsigned int i = 0; i < _springs_elasticity_tensors[_qp].size(); ++i)
81  {
82  Real theta_i = computeTheta(_dt, _dashpot_viscosities[_qp][i]);
83  Real gamma = _dashpot_viscosities[_qp][i] / (_dt * theta_i);
84  _apparent_creep_strain[_qp] += _viscous_strains[_qp][i] * (gamma / (1. + gamma));
85  }
86 
88  _apparent_creep_strain[_qp] += _viscous_strains[_qp].back();
89 
91  {
92  RankFourTensor cumulated_driving_tensor;
93  cumulated_driving_tensor.zero();
94  for (unsigned int i = 0; i < _springs_elasticity_tensors[_qp].size(); ++i)
95  {
96  double theta_i = computeTheta(_dt, _dashpot_viscosities[_qp][i]);
97  double gamma = _dashpot_viscosities[_qp][i] / (_dt * theta_i);
98  cumulated_driving_tensor += (*_springs_elasticity_tensors_inv)[_qp][i] / (1. + gamma);
99  }
100 
101  _apparent_creep_strain[_qp] +=
102  (_instantaneous_elasticity_tensor[_qp] * cumulated_driving_tensor) *
103  (*_driving_eigenstrain)[_qp];
104 
106  {
107  double theta_i = computeTheta(_dt, _dashpot_viscosities[_qp].back());
108  double gamma = _dashpot_viscosities[_qp].back() / (_dt * theta_i);
109  _apparent_creep_strain[_qp] += (*_driving_eigenstrain)[_qp] / gamma;
110  }
111  }
112 }
MaterialProperty< std::vector< RankTwoTensor > > & _viscous_strains
The internal strain variables required by the time-stepping procedure (generally, on a one-on-one bas...
bool _has_longterm_dashpot
Indicates if the spring-dashpot assembly has a single dashpot not associated with a spring...
MaterialProperty< std::vector< RankFourTensor > > & _springs_elasticity_tensors
List of elasticity tensor of each subsequent spring in the chain.
MaterialProperty< RankFourTensor > & _instantaneous_elasticity_tensor
Instantaneous elasticity tensor. This IS the real elasticity tensor of the material.
MaterialProperty< std::vector< Real > > & _dashpot_viscosities
List of viscosities of each subsequent spring in the chain.
Real computeTheta(Real dt, Real viscosity) const
Provides theta as a function of the time step and a viscosity.
MaterialProperty< RankTwoTensor > & _apparent_creep_strain
The apparent creep strain resulting from the internal viscous strains.
const MaterialProperty< RankTwoTensor > * _driving_eigenstrain
Pointer to the value of the driving eigenstrain.
bool _has_driving_eigenstrain
Indicates if the model is only driven by the stress, or also by an additional eigenstrain.
void GeneralizedKelvinVoigtBase::computeQpApparentElasticityTensors ( )
finalprotectedvirtual

This method computes the apparent elasticity tensor used in the internal time-stepping scheme.

It is called after the mechanical properties have been set, and before the apparent creep strains are calculated.

This method is also responsible for calculating the instantaneous elasticity tensor, and the inverse of both the apparent and instantaneous elasticity tensors.

This method is purely virtual. Inherited classes must override it.

This method is related to the internal time-stepping scheme. It should only be overwritten by classes that inherit directly from LinearViscoelasticityBase, and that represent a different spring-dashpot assembly. See GeneralizedKelvinVoigtBase for example.

Implements LinearViscoelasticityBase.

Definition at line 51 of file GeneralizedKelvinVoigtBase.C.

52 {
54  _instantaneous_elasticity_tensor_inv[_qp] = (*_first_elasticity_tensor_inv)[_qp];
55  _apparent_elasticity_tensor_inv[_qp] = (*_first_elasticity_tensor_inv)[_qp];
56 
57  for (unsigned int i = 0; i < _springs_elasticity_tensors[_qp].size(); ++i)
58  {
59  Real theta_i = computeTheta(_dt, _dashpot_viscosities[_qp][i]);
60  Real gamma = _dashpot_viscosities[_qp][i] / (_dt * theta_i);
62  (*_springs_elasticity_tensors_inv)[_qp][i] / (1. + gamma);
63  }
64 
66  {
67  Real theta_i = computeTheta(_dt, _dashpot_viscosities[_qp].back());
68  Real gamma = _dashpot_viscosities[_qp].back() / (_dt * theta_i);
69  _apparent_elasticity_tensor_inv[_qp] += (*_first_elasticity_tensor_inv)[_qp] / gamma;
70  }
71 
73 }
bool _has_longterm_dashpot
Indicates if the spring-dashpot assembly has a single dashpot not associated with a spring...
MaterialProperty< std::vector< RankFourTensor > > & _springs_elasticity_tensors
List of elasticity tensor of each subsequent spring in the chain.
MaterialProperty< RankFourTensor > & _instantaneous_elasticity_tensor
Instantaneous elasticity tensor. This IS the real elasticity tensor of the material.
MaterialProperty< RankFourTensor > & _apparent_elasticity_tensor
Apparent elasticity tensor. This is NOT the elasticity tensor of the material.
MaterialProperty< RankFourTensor > & _first_elasticity_tensor
Elasticity tensor of a stand-alone elastic spring in the chain.
MaterialProperty< std::vector< Real > > & _dashpot_viscosities
List of viscosities of each subsequent spring in the chain.
Real computeTheta(Real dt, Real viscosity) const
Provides theta as a function of the time step and a viscosity.
MaterialProperty< RankFourTensor > & _instantaneous_elasticity_tensor_inv
Inverse of the instaneous elasticity tensor.
MaterialProperty< RankFourTensor > & _apparent_elasticity_tensor_inv
Inverse of the apparent elasticity tensor.
void LinearViscoelasticityBase::computeQpElasticityTensor ( )
finalprotectedvirtualinherited

Inherited from ComputeElasticityTensorBase.

Implements ComputeElasticityTensorBase.

Definition at line 166 of file LinearViscoelasticityBase.C.

167 {
170 
172 }
void recomputeQpApparentProperties(unsigned int qp)
Compute the apparent properties at a quadrature point.
bool _force_recompute_properties
If activated, the time-stepping scheme will be re-initialized at each step of the solver...
MaterialProperty< RankFourTensor > & _instantaneous_elasticity_tensor
Instantaneous elasticity tensor. This IS the real elasticity tensor of the material.
MaterialProperty< RankFourTensor > & _elasticity_tensor
void ComputeElasticityTensorBase::computeQpProperties ( )
protectedvirtualinherited

Definition at line 39 of file ComputeElasticityTensorBase.C.

40 {
42 
43  // Multiply by prefactor
45  _elasticity_tensor[_qp] *= _prefactor_function->value(_t, _q_point[_qp]);
46 }
Function *const _prefactor_function
prefactor function to multiply the elasticity tensor with
virtual void computeQpElasticityTensor()=0
MaterialProperty< RankFourTensor > & _elasticity_tensor
virtual void LinearViscoelasticityBase::computeQpViscoelasticProperties ( )
protectedpure virtualinherited

This method assigns the mechanical properties of each spring and dashpot in the system.

This method is purely virtual. Inherited classes must override it.

This method is related to the storage of the mechanical properties of each spring and dashpot in the system, and not the internal time-stepping procedure. Only end-user classes should override it. See GeneralizedKelvinVoigModel for example.

Implemented in GeneralizedMaxwellModel, and GeneralizedKelvinVoigtModel.

Referenced by LinearViscoelasticityBase::recomputeQpApparentProperties().

void LinearViscoelasticityBase::computeQpViscoelasticPropertiesInv ( )
protectedvirtualinherited

This method computes the inverse elasticity tensor of each spring in the system (if required).

This method is virtual. Its default behavior computes the inverse of each tensor. It must be inherited only if there is a faster way to compute this inverse (for example, if they are known).

This method is related to the storage of the mechanical properties of each spring and dashpot in the system, and not the internal time-stepping procedure. Only end-user classes should override it. See GeneralizedKelvinVoigtModel for example.

Reimplemented in GeneralizedMaxwellModel, and GeneralizedKelvinVoigtModel.

Definition at line 175 of file LinearViscoelasticityBase.C.

Referenced by LinearViscoelasticityBase::recomputeQpApparentProperties().

176 {
177  if (MooseUtils::absoluteFuzzyEqual(_first_elasticity_tensor[_qp].L2norm(), 0.0))
178  (*_first_elasticity_tensor_inv)[_qp].zero();
179  else
181 
182  for (unsigned int i = 0; i < _springs_elasticity_tensors[_qp].size(); ++i)
183  {
184  if (MooseUtils::absoluteFuzzyEqual(_springs_elasticity_tensors[_qp][i].L2norm(), 0.0))
185  (*_springs_elasticity_tensors_inv)[_qp][i].zero();
186  else
187  (*_springs_elasticity_tensors_inv)[_qp][i] = _springs_elasticity_tensors[_qp][i].invSymm();
188  }
189 }
MaterialProperty< std::vector< RankFourTensor > > & _springs_elasticity_tensors
List of elasticity tensor of each subsequent spring in the chain.
MaterialProperty< std::vector< RankFourTensor > > * _springs_elasticity_tensors_inv
MaterialProperty< RankFourTensor > & _first_elasticity_tensor
Elasticity tensor of a stand-alone elastic spring in the chain.
MaterialProperty< RankFourTensor > * _first_elasticity_tensor_inv
Real L2norm(const RankTwoTensor &r2tensor)
Real LinearViscoelasticityBase::computeTheta ( Real  dt,
Real  viscosity 
) const
protectedinherited

Provides theta as a function of the time step and a viscosity.

Definition at line 192 of file LinearViscoelasticityBase.C.

Referenced by computeQpApparentCreepStrain(), GeneralizedMaxwellBase::computeQpApparentCreepStrain(), GeneralizedMaxwellBase::computeQpApparentElasticityTensors(), computeQpApparentElasticityTensors(), GeneralizedMaxwellBase::updateQpViscousStrains(), and updateQpViscousStrains().

193 {
194  if (MooseUtils::absoluteFuzzyEqual(dt, 0.0))
195  mooseError("linear viscoelasticity cannot be integrated over a dt of ", dt);
196 
197  switch (_integration_rule)
198  {
200  return 1.;
202  return 0.5;
204  return _theta;
206  return 1. / (1. - std::exp(-dt / viscosity)) - viscosity / dt;
207  default:
208  return 1.;
209  }
210  return 1.;
211 }
theta automatically adjusted as a function of the time step and the viscosity
double FORTRAN_CALL() viscosity(double &rho, double &T)
Real _theta
User-defined value for theta.
IntegrationRule _integration_rule
Determines how theta is computed.
bool GuaranteeProvider::hasGuarantee ( const MaterialPropertyName &  prop_name,
Guarantee  guarantee 
)
inherited

Definition at line 14 of file GuaranteeProvider.C.

15 {
16  auto it = _guarantees.find(prop_name);
17  if (it == _guarantees.end())
18  return false;
19 
20  auto it2 = it->second.find(guarantee);
21  return it2 != it->second.end();
22 }
std::map< MaterialPropertyName, std::set< Guarantee > > _guarantees
void LinearViscoelasticityBase::initQpStatefulProperties ( )
overrideprotectedvirtualinherited

Definition at line 117 of file LinearViscoelasticityBase.C.

118 {
119  _apparent_elasticity_tensor[_qp].zero();
123  _first_elasticity_tensor[_qp].zero();
124  _apparent_creep_strain[_qp].zero();
125 
126  _springs_elasticity_tensors[_qp].resize(
127  (_has_longterm_dashpot && _components > 0) ? _components - 1 : _components, RankFourTensor());
128  _dashpot_viscosities[_qp].resize(_components, 0);
129  _viscous_strains[_qp].resize(_components, RankTwoTensor());
130 
132  {
133  (*_first_elasticity_tensor_inv)[_qp].zero();
134  (*_springs_elasticity_tensors_inv)[_qp].resize(_components, RankFourTensor());
135  }
136 }
MaterialProperty< std::vector< RankTwoTensor > > & _viscous_strains
The internal strain variables required by the time-stepping procedure (generally, on a one-on-one bas...
bool _has_longterm_dashpot
Indicates if the spring-dashpot assembly has a single dashpot not associated with a spring...
MaterialProperty< std::vector< RankFourTensor > > & _springs_elasticity_tensors
List of elasticity tensor of each subsequent spring in the chain.
bool _need_viscoelastic_properties_inverse
If active, indicates that we need to call computeQpViscoelasticPropertiesInv()
MaterialProperty< RankFourTensor > & _instantaneous_elasticity_tensor
Instantaneous elasticity tensor. This IS the real elasticity tensor of the material.
MaterialProperty< RankFourTensor > & _apparent_elasticity_tensor
Apparent elasticity tensor. This is NOT the elasticity tensor of the material.
MaterialProperty< RankFourTensor > & _first_elasticity_tensor
Elasticity tensor of a stand-alone elastic spring in the chain.
MaterialProperty< std::vector< Real > > & _dashpot_viscosities
List of viscosities of each subsequent spring in the chain.
unsigned int _components
This is the number of internal variables required by the model.
MaterialProperty< RankTwoTensor > & _apparent_creep_strain
The apparent creep strain resulting from the internal viscous strains.
MaterialProperty< RankFourTensor > & _instantaneous_elasticity_tensor_inv
Inverse of the instaneous elasticity tensor.
MaterialProperty< RankFourTensor > & _apparent_elasticity_tensor_inv
Inverse of the apparent elasticity tensor.
void GuaranteeProvider::issueGuarantee ( const MaterialPropertyName &  prop_name,
Guarantee  guarantee 
)
protectedinherited
void LinearViscoelasticityBase::recomputeQpApparentProperties ( unsigned int  qp)
inherited

Compute the apparent properties at a quadrature point.

This initializes the internal time-stepping scheme, and must be called at the beginning of the time step.

This method is called by LinearViscoelasticityManager.

Definition at line 139 of file LinearViscoelasticityBase.C.

Referenced by LinearViscoelasticityBase::computeQpElasticityTensor().

140 {
141  unsigned int qp_prev = _qp;
142  _qp = qp;
143 
144  if (_t_step >= 1)
145  _step_zero = false;
146 
147  // 1. we get the viscoelastic properties and their inverse if needed
151 
152  // 2. we update the internal viscous strains from the previous time step
154 
155  // 3. we compute the apparent elasticity tensor
157 
158  // 4. we transform the internal viscous strains in an apparent creep strain
159  if (!_step_zero)
161 
162  _qp = qp_prev;
163 }
bool _need_viscoelastic_properties_inverse
If active, indicates that we need to call computeQpViscoelasticPropertiesInv()
virtual void computeQpApparentElasticityTensors()=0
This method computes the apparent elasticity tensor used in the internal time-stepping scheme...
virtual void computeQpViscoelasticProperties()=0
This method assigns the mechanical properties of each spring and dashpot in the system.
virtual void computeQpApparentCreepStrain()=0
This method computes the apparent creep strain corresponding to the current viscous_strain of each da...
virtual void computeQpViscoelasticPropertiesInv()
This method computes the inverse elasticity tensor of each spring in the system (if required)...
virtual void updateQpViscousStrains()=0
Update the internal viscous strains at a quadrature point.
void GuaranteeProvider::revokeGuarantee ( const MaterialPropertyName &  prop_name,
Guarantee  guarantee 
)
protectedinherited

Definition at line 32 of file GuaranteeProvider.C.

Referenced by ComputeElasticityTensorCP::ComputeElasticityTensorCP().

33 {
34  auto it = _guarantees.find(prop_name);
35  if (it != _guarantees.end())
36  it->second.erase(guarantee);
37 }
std::map< MaterialPropertyName, std::set< Guarantee > > _guarantees
void GeneralizedKelvinVoigtBase::updateQpViscousStrains ( )
finalprotectedvirtual

Update the internal viscous strains at a quadrature point.

Calling this method is required at the end of each time step to update the internal time-stepping scheme correctly.

This method is pure virtual. Inherited classes must override it.

This method is related to the internal time-stepping scheme. It should only be overwritten by classes that inherit directly from LinearViscoelasticityBase, and that represent a different spring-dashpot assembly. See GeneralizedKelvinVoigtBase or GeneralizedMaxwellBase for example.

Implements LinearViscoelasticityBase.

Definition at line 26 of file GeneralizedKelvinVoigtBase.C.

27 {
28  RankTwoTensor effective_stress = _stress_old[_qp];
30  effective_stress += _instantaneous_elasticity_tensor[_qp] * (*_driving_eigenstrain)[_qp];
31 
32  for (unsigned int i = 0; i < _springs_elasticity_tensors[_qp].size(); ++i)
33  {
34  Real theta_i = computeTheta(_dt_old, _dashpot_viscosities[_qp][i]);
35  Real gamma = _dashpot_viscosities[_qp][i] / (_dt_old * theta_i);
36  _viscous_strains[_qp][i] =
37  ((*_springs_elasticity_tensors_inv)[_qp][i] * effective_stress) / (theta_i * (1. + gamma));
38  _viscous_strains[_qp][i] += _viscous_strains_old[_qp][i] *
39  (gamma / (theta_i * (1. + gamma)) - (1. - theta_i) / theta_i);
40  }
41 
43  {
44  _viscous_strains[_qp].back() = ((*_first_elasticity_tensor_inv)[_qp] * effective_stress) *
45  (_dt_old / _dashpot_viscosities[_qp].back());
46  _viscous_strains[_qp].back() += _viscous_strains_old[_qp].back();
47  }
48 }
MaterialProperty< std::vector< RankTwoTensor > > & _viscous_strains
The internal strain variables required by the time-stepping procedure (generally, on a one-on-one bas...
bool _has_longterm_dashpot
Indicates if the spring-dashpot assembly has a single dashpot not associated with a spring...
MaterialProperty< std::vector< RankFourTensor > > & _springs_elasticity_tensors
List of elasticity tensor of each subsequent spring in the chain.
MaterialProperty< RankFourTensor > & _instantaneous_elasticity_tensor
Instantaneous elasticity tensor. This IS the real elasticity tensor of the material.
MaterialProperty< std::vector< Real > > & _dashpot_viscosities
List of viscosities of each subsequent spring in the chain.
Real computeTheta(Real dt, Real viscosity) const
Provides theta as a function of the time step and a viscosity.
const MaterialProperty< RankTwoTensor > & _stress_old
previous value of the stress for update purposes
const MaterialProperty< std::vector< RankTwoTensor > > & _viscous_strains_old
bool _has_driving_eigenstrain
Indicates if the model is only driven by the stress, or also by an additional eigenstrain.

Member Data Documentation

MaterialProperty<RankTwoTensor>& LinearViscoelasticityBase::_apparent_creep_strain
protectedinherited

The apparent creep strain resulting from the internal viscous strains.

Definition at line 223 of file LinearViscoelasticityBase.h.

Referenced by computeQpApparentCreepStrain(), GeneralizedMaxwellBase::computeQpApparentCreepStrain(), and LinearViscoelasticityBase::initQpStatefulProperties().

const MaterialProperty<RankTwoTensor>& LinearViscoelasticityBase::_apparent_creep_strain_old
protectedinherited

Definition at line 224 of file LinearViscoelasticityBase.h.

MaterialProperty<RankFourTensor>& LinearViscoelasticityBase::_apparent_elasticity_tensor
protectedinherited

Apparent elasticity tensor. This is NOT the elasticity tensor of the material.

Definition at line 187 of file LinearViscoelasticityBase.h.

Referenced by computeQpApparentElasticityTensors(), GeneralizedMaxwellBase::computeQpApparentElasticityTensors(), and LinearViscoelasticityBase::initQpStatefulProperties().

MaterialProperty<RankFourTensor>& LinearViscoelasticityBase::_apparent_elasticity_tensor_inv
protectedinherited
std::string ComputeElasticityTensorBase::_base_name
protectedinherited
unsigned int LinearViscoelasticityBase::_components
protectedinherited

This is the number of internal variables required by the model.

This must be set in the constructor of an inherited class. See GeneralizedKelvinVoigtModel for example.

Definition at line 204 of file LinearViscoelasticityBase.h.

Referenced by GeneralizedKelvinVoigtModel::GeneralizedKelvinVoigtModel(), GeneralizedMaxwellModel::GeneralizedMaxwellModel(), and LinearViscoelasticityBase::initQpStatefulProperties().

const MaterialProperty<RankTwoTensor>& LinearViscoelasticityBase::_creep_strain_old
protectedinherited

Previous value of the true creep strain for update purposes.

This is calculated by a ComputeLinearViscoelasticStress or a LinearViscoelasticStressUpdate material.

Definition at line 233 of file LinearViscoelasticityBase.h.

Referenced by GeneralizedMaxwellBase::updateQpViscousStrains().

MaterialProperty<std::vector<Real> >& LinearViscoelasticityBase::_dashpot_viscosities
protectedinherited
const MaterialProperty<RankTwoTensor>* LinearViscoelasticityBase::_driving_eigenstrain
protectedinherited

Pointer to the value of the driving eigenstrain.

Definition at line 243 of file LinearViscoelasticityBase.h.

Referenced by computeQpApparentCreepStrain(), and GeneralizedMaxwellBase::computeQpApparentCreepStrain().

std::string LinearViscoelasticityBase::_driving_eigenstrain_name
protectedinherited

Name of the eigenstrain that drives the additional creep strain.

Definition at line 241 of file LinearViscoelasticityBase.h.

const MaterialProperty<RankTwoTensor>& LinearViscoelasticityBase::_elastic_strain_old
protectedinherited

previous value of the elastic strain for update purposes

Definition at line 227 of file LinearViscoelasticityBase.h.

Referenced by GeneralizedMaxwellBase::updateQpViscousStrains().

MaterialProperty<RankFourTensor>& ComputeElasticityTensorBase::_elasticity_tensor
protectedinherited
std::string ComputeElasticityTensorBase::_elasticity_tensor_name
protectedinherited
MaterialProperty<RankFourTensor>& LinearViscoelasticityBase::_first_elasticity_tensor
protectedinherited
MaterialProperty<RankFourTensor>* LinearViscoelasticityBase::_first_elasticity_tensor_inv
protectedinherited
bool LinearViscoelasticityBase::_force_recompute_properties
protectedinherited

If activated, the time-stepping scheme will be re-initialized at each step of the solver.

This may be required for models in which the mechanical properties vary following other variables. If the mechanical properties are constant through the time step, this can be set to false.

Definition at line 250 of file LinearViscoelasticityBase.h.

Referenced by LinearViscoelasticityBase::computeQpElasticityTensor().

bool LinearViscoelasticityBase::_has_driving_eigenstrain
protectedinherited

Indicates if the model is only driven by the stress, or also by an additional eigenstrain.

Definition at line 239 of file LinearViscoelasticityBase.h.

Referenced by computeQpApparentCreepStrain(), GeneralizedMaxwellBase::computeQpApparentCreepStrain(), GeneralizedMaxwellBase::updateQpViscousStrains(), and updateQpViscousStrains().

bool LinearViscoelasticityBase::_has_longterm_dashpot
protectedinherited
MaterialProperty<RankFourTensor>& LinearViscoelasticityBase::_instantaneous_elasticity_tensor
protectedinherited
MaterialProperty<RankFourTensor>& LinearViscoelasticityBase::_instantaneous_elasticity_tensor_inv
protectedinherited
IntegrationRule LinearViscoelasticityBase::_integration_rule
protectedinherited

Determines how theta is computed.

Definition at line 182 of file LinearViscoelasticityBase.h.

Referenced by LinearViscoelasticityBase::computeTheta().

bool LinearViscoelasticityBase::_need_viscoelastic_properties_inverse
protectedinherited
Function* const ComputeElasticityTensorBase::_prefactor_function
protectedinherited

prefactor function to multiply the elasticity tensor with

Definition at line 34 of file ComputeElasticityTensorBase.h.

Referenced by ComputeLayeredCosseratElasticityTensor::computeQpElasticityTensor(), and ComputeElasticityTensorBase::computeQpProperties().

MaterialProperty<std::vector<RankFourTensor> >& LinearViscoelasticityBase::_springs_elasticity_tensors
protectedinherited
MaterialProperty<std::vector<RankFourTensor> >* LinearViscoelasticityBase::_springs_elasticity_tensors_inv
protectedinherited
bool& LinearViscoelasticityBase::_step_zero
protectedinherited
const MaterialProperty<RankTwoTensor>& LinearViscoelasticityBase::_stress_old
protectedinherited

previous value of the stress for update purposes

Definition at line 236 of file LinearViscoelasticityBase.h.

Referenced by updateQpViscousStrains().

Real LinearViscoelasticityBase::_theta
protectedinherited
MaterialProperty<std::vector<RankTwoTensor> >& LinearViscoelasticityBase::_viscous_strains
protectedinherited

The internal strain variables required by the time-stepping procedure (generally, on a one-on-one basis with the number of dashpot).

Definition at line 219 of file LinearViscoelasticityBase.h.

Referenced by computeQpApparentCreepStrain(), GeneralizedMaxwellBase::computeQpApparentCreepStrain(), LinearViscoelasticityBase::initQpStatefulProperties(), GeneralizedMaxwellBase::updateQpViscousStrains(), and updateQpViscousStrains().

const MaterialProperty<std::vector<RankTwoTensor> >& LinearViscoelasticityBase::_viscous_strains_old
protectedinherited

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