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Public Member Functions | Static Public Member Functions | Protected Member Functions | Protected Attributes | List of all members
SolidMechanics::PlaneStrain Class Reference

#include <PlaneStrain.h>

Inheritance diagram for SolidMechanics::PlaneStrain:
[legend]

Public Member Functions

 PlaneStrain (SolidModel &solid_model, const std::string &name, const InputParameters &parameters)
 
virtual ~PlaneStrain ()
 
virtual void init ()
 
virtual Real volumeRatioOld (unsigned) const
 
virtual void finalizeStress (std::vector< SymmTensor * > &)
 Rotate stress to current configuration. More...
 
void fillMatrix (unsigned int qp, const VariableGradient &grad_x, const VariableGradient &grad_y, const VariableGradient &grad_z, ColumnMajorMatrix &A)
 

Static Public Member Functions

static Real detMatrix (const ColumnMajorMatrix &A)
 
static void invertMatrix (const ColumnMajorMatrix &A, ColumnMajorMatrix &Ainv)
 
static void rotateSymmetricTensor (const ColumnMajorMatrix &R, const RealTensorValue &T, RealTensorValue &result)
 
static void rotateSymmetricTensor (const ColumnMajorMatrix &R, const SymmTensor &T, SymmTensor &result)
 
static void unrotateSymmetricTensor (const ColumnMajorMatrix &R, const SymmTensor &T, SymmTensor &result)
 
static void polarDecompositionEigen (const ColumnMajorMatrix &Fhat, ColumnMajorMatrix &Rhat, SymmTensor &strain_increment)
 

Protected Member Functions

virtual void computeStrain (const unsigned qp, const SymmTensor &total_strain_old, SymmTensor &total_strain_new, SymmTensor &strain_increment)
 
virtual void computeDeformationGradient (unsigned int qp, ColumnMajorMatrix &F)
 
virtual unsigned int getNumKnownCrackDirs () const
 

Protected Attributes

const bool _large_strain
 
const VariableGradient & _grad_disp_x
 
const VariableGradient & _grad_disp_y
 
bool _have_strain_zz
 
const VariableValue & _strain_zz
 
bool _have_scalar_strain_zz
 
const VariableValue & _scalar_strain_zz
 
const bool _volumetric_locking_correction
 
SolidModel_solid_model
 

Detailed Description

Definition at line 16 of file PlaneStrain.h.

Constructor & Destructor Documentation

SolidMechanics::PlaneStrain::PlaneStrain ( SolidModel solid_model,
const std::string &  name,
const InputParameters &  parameters 
)

Definition at line 14 of file PlaneStrain.C.

17  : Element(solid_model, name, parameters),
18  ScalarCoupleable(&solid_model),
19  _large_strain(solid_model.getParam<bool>("large_strain")),
20  _grad_disp_x(coupledGradient("disp_x")),
21  _grad_disp_y(coupledGradient("disp_y")),
22  _have_strain_zz(isCoupled("strain_zz")),
23  _strain_zz(_have_strain_zz ? coupledValue("strain_zz") : _zero),
24  _have_scalar_strain_zz(isCoupledScalar("scalar_strain_zz")),
25  _scalar_strain_zz(_have_scalar_strain_zz ? coupledScalarValue("scalar_strain_zz") : _zero),
26  _volumetric_locking_correction(solid_model.getParam<bool>("volumetric_locking_correction"))
27 {
29  mooseError("Must define only one of strain_zz or scalar_strain_zz");
30 }
const VariableGradient & _grad_disp_y
Definition: PlaneStrain.h:37
Element(SolidModel &solid_model, const std::string &name, const InputParameters &parameters)
Definition: Element.C:14
const VariableValue & _strain_zz
Definition: PlaneStrain.h:39
const VariableGradient & _grad_disp_x
Definition: PlaneStrain.h:36
const bool _volumetric_locking_correction
Definition: PlaneStrain.h:42
const VariableValue & _scalar_strain_zz
Definition: PlaneStrain.h:41
SolidMechanics::PlaneStrain::~PlaneStrain ( )
virtual

Definition at line 32 of file PlaneStrain.C.

32 {}

Member Function Documentation

void SolidMechanics::PlaneStrain::computeDeformationGradient ( unsigned int  qp,
ColumnMajorMatrix &  F 
)
protectedvirtual

Reimplemented from SolidMechanics::Element.

Definition at line 111 of file PlaneStrain.C.

112 {
113  mooseAssert(F.n() == 3 && F.m() == 3, "computeDefGrad requires 3x3 matrix");
114 
115  F(0, 0) = _grad_disp_x[qp](0) + 1.0;
116  F(0, 1) = _grad_disp_x[qp](1);
117  F(0, 2) = 0.0;
118  F(1, 0) = _grad_disp_y[qp](0);
119  F(1, 1) = _grad_disp_y[qp](1) + 1.0;
120  F(1, 2) = 0.0;
121  F(2, 0) = 0.0;
122  F(2, 1) = 0.0;
123  F(2, 2) = 1.0;
124 }
const VariableGradient & _grad_disp_y
Definition: PlaneStrain.h:37
const VariableGradient & _grad_disp_x
Definition: PlaneStrain.h:36
void SolidMechanics::PlaneStrain::computeStrain ( const unsigned  qp,
const SymmTensor total_strain_old,
SymmTensor total_strain_new,
SymmTensor strain_increment 
)
protectedvirtual

Implements SolidMechanics::Element.

Definition at line 35 of file PlaneStrain.C.

39 {
40  strain_increment.xx() = _grad_disp_x[qp](0);
41  strain_increment.yy() = _grad_disp_y[qp](1);
42 
43  if (_have_strain_zz)
44  strain_increment.zz() = _strain_zz[qp];
45  else if (_have_scalar_strain_zz && _scalar_strain_zz.size() > 0)
46  strain_increment.zz() = _scalar_strain_zz[0];
47  else
48  strain_increment.zz() = 0;
49 
50  strain_increment.xy() = 0.5 * (_grad_disp_x[qp](1) + _grad_disp_y[qp](0));
51  strain_increment.yz() = 0;
52  strain_increment.zx() = 0;
53  if (_large_strain)
54  {
55  strain_increment.xx() += 0.5 * (_grad_disp_x[qp](0) * _grad_disp_x[qp](0) +
56  _grad_disp_y[qp](0) * _grad_disp_y[qp](0));
57  strain_increment.yy() += 0.5 * (_grad_disp_x[qp](1) * _grad_disp_x[qp](1) +
58  _grad_disp_y[qp](1) * _grad_disp_y[qp](1));
59  strain_increment.xy() += 0.5 * (_grad_disp_x[qp](0) * _grad_disp_x[qp](1) +
60  _grad_disp_y[qp](0) * _grad_disp_y[qp](1));
61  }
62 
64  {
65  // volumetric locking correction
66  Real volumetric_strain = 0.0;
67  Real volume = 0.0;
68  Real dim = 3.0;
69  for (unsigned int qp_loop = 0; qp_loop < _solid_model.qrule()->n_points(); ++qp_loop)
70  {
71  if (_have_strain_zz)
72  volumetric_strain +=
73  (_grad_disp_x[qp_loop](0) + _grad_disp_y[qp_loop](1) + _strain_zz[qp_loop]) / dim *
74  _solid_model.JxW(qp_loop);
75  else if (_have_scalar_strain_zz && _scalar_strain_zz.size() > 0)
76  volumetric_strain +=
77  (_grad_disp_x[qp_loop](0) + _grad_disp_y[qp_loop](1) + _scalar_strain_zz[0]) / dim *
78  _solid_model.JxW(qp_loop);
79  else
80  volumetric_strain +=
81  (_grad_disp_x[qp_loop](0) + _grad_disp_y[qp_loop](1)) / dim * _solid_model.JxW(qp_loop);
82 
83  volume += _solid_model.JxW(qp_loop);
84 
85  if (_large_strain)
86  {
87  volumetric_strain += 0.5 * (_grad_disp_x[qp_loop](0) * _grad_disp_x[qp_loop](0) +
88  _grad_disp_y[qp_loop](0) * _grad_disp_y[qp_loop](0)) /
89  dim * _solid_model.JxW(qp_loop);
90  volumetric_strain += 0.5 * (_grad_disp_x[qp_loop](1) * _grad_disp_x[qp_loop](1) +
91  _grad_disp_y[qp_loop](1) * _grad_disp_y[qp_loop](1)) /
92  dim * _solid_model.JxW(qp_loop);
93  }
94  }
95 
96  volumetric_strain /= volume; // average volumetric strain
97 
98  // strain increment at _qp
99  Real trace = strain_increment.trace();
100  strain_increment.xx() += volumetric_strain - trace / dim;
101  strain_increment.yy() += volumetric_strain - trace / dim;
102  strain_increment.zz() += volumetric_strain - trace / dim;
103  }
104 
105  total_strain_new = strain_increment;
106 
107  strain_increment -= total_strain_old;
108 }
const VariableGradient & _grad_disp_y
Definition: PlaneStrain.h:37
Real yy() const
Definition: SymmTensor.h:130
Real xx() const
Definition: SymmTensor.h:129
const VariableValue & _strain_zz
Definition: PlaneStrain.h:39
QBase * qrule()
Definition: SolidModel.h:53
Real zz() const
Definition: SymmTensor.h:131
const VariableGradient & _grad_disp_x
Definition: PlaneStrain.h:36
Real trace() const
Definition: SymmTensor.h:95
Real JxW(unsigned i) const
Definition: SolidModel.h:55
Real xy() const
Definition: SymmTensor.h:132
SolidModel & _solid_model
Definition: Element.h:72
Real yz() const
Definition: SymmTensor.h:133
Real zx() const
Definition: SymmTensor.h:134
const bool _volumetric_locking_correction
Definition: PlaneStrain.h:42
const VariableValue & _scalar_strain_zz
Definition: PlaneStrain.h:41
Real SolidMechanics::Element::detMatrix ( const ColumnMajorMatrix &  A)
staticinherited

Definition at line 28 of file Element.C.

Referenced by SolidModel::computeEshelby(), SolidMechanics::Nonlinear3D::computeIncrementalDeformationGradient(), SolidMechanics::NonlinearRZ::computeIncrementalDeformationGradient(), SolidMechanics::NonlinearPlaneStrain::computeIncrementalDeformationGradient(), SolidMechanics::Element::invertMatrix(), SolidMechanics::Nonlinear3D::volumeRatioOld(), SolidMechanics::NonlinearRZ::volumeRatioOld(), and SolidMechanics::NonlinearPlaneStrain::volumeRatioOld().

29 {
30  mooseAssert(A.n() == 3 && A.m() == 3, "detMatrix requires 3x3 matrix");
31 
32  Real Axx = A(0, 0);
33  Real Axy = A(0, 1);
34  Real Axz = A(0, 2);
35  Real Ayx = A(1, 0);
36  Real Ayy = A(1, 1);
37  Real Ayz = A(1, 2);
38  Real Azx = A(2, 0);
39  Real Azy = A(2, 1);
40  Real Azz = A(2, 2);
41 
42  return Axx * Ayy * Azz + Axy * Ayz * Azx + Axz * Ayx * Azy - Azx * Ayy * Axz - Azy * Ayz * Axx -
43  Azz * Ayx * Axy;
44 }
void SolidMechanics::Element::fillMatrix ( unsigned int  qp,
const VariableGradient &  grad_x,
const VariableGradient &  grad_y,
const VariableGradient &  grad_z,
ColumnMajorMatrix &  A 
)
inherited

Definition at line 225 of file Element.C.

Referenced by SolidMechanics::Nonlinear3D::computeIncrementalDeformationGradient(), and SolidMechanics::Element::getNumKnownCrackDirs().

230 {
231  A(0, 0) = grad_x[qp](0);
232  A(0, 1) = grad_x[qp](1);
233  A(0, 2) = grad_x[qp](2);
234  A(1, 0) = grad_y[qp](0);
235  A(1, 1) = grad_y[qp](1);
236  A(1, 2) = grad_y[qp](2);
237  A(2, 0) = grad_z[qp](0);
238  A(2, 1) = grad_z[qp](1);
239  A(2, 2) = grad_z[qp](2);
240 }
virtual void SolidMechanics::Element::finalizeStress ( std::vector< SymmTensor * > &  )
inlinevirtualinherited

Rotate stress to current configuration.

Reimplemented in SolidMechanics::Nonlinear.

Definition at line 61 of file Element.h.

Referenced by SolidModel::finalizeStress().

61 {}
virtual unsigned int SolidMechanics::PlaneStrain::getNumKnownCrackDirs ( ) const
inlineprotectedvirtual

Reimplemented from SolidMechanics::Element.

Definition at line 32 of file PlaneStrain.h.

32 { return 1; }
virtual void SolidMechanics::Element::init ( )
inlinevirtualinherited

Reimplemented in SolidMechanics::Nonlinear.

Definition at line 46 of file Element.h.

Referenced by SolidModel::computeProperties().

46 {}
void SolidMechanics::Element::invertMatrix ( const ColumnMajorMatrix &  A,
ColumnMajorMatrix &  Ainv 
)
staticinherited

Definition at line 49 of file Element.C.

Referenced by SolidModel::computeEshelby(), SolidMechanics::Nonlinear3D::computeIncrementalDeformationGradient(), SolidMechanics::NonlinearRZ::computeIncrementalDeformationGradient(), SolidMechanics::NonlinearPlaneStrain::computeIncrementalDeformationGradient(), and SolidMechanics::Element::polarDecompositionEigen().

50 {
51  Real Axx = A(0, 0);
52  Real Axy = A(0, 1);
53  Real Axz = A(0, 2);
54  Real Ayx = A(1, 0);
55  Real Ayy = A(1, 1);
56  Real Ayz = A(1, 2);
57  Real Azx = A(2, 0);
58  Real Azy = A(2, 1);
59  Real Azz = A(2, 2);
60 
61  mooseAssert(detMatrix(A) > 0, "Matrix is not positive definite!");
62  Real detInv = 1 / detMatrix(A);
63 
64  Ainv(0, 0) = +(Ayy * Azz - Azy * Ayz) * detInv;
65  Ainv(0, 1) = -(Axy * Azz - Azy * Axz) * detInv;
66  Ainv(0, 2) = +(Axy * Ayz - Ayy * Axz) * detInv;
67  Ainv(1, 0) = -(Ayx * Azz - Azx * Ayz) * detInv;
68  Ainv(1, 1) = +(Axx * Azz - Azx * Axz) * detInv;
69  Ainv(1, 2) = -(Axx * Ayz - Ayx * Axz) * detInv;
70  Ainv(2, 0) = +(Ayx * Azy - Azx * Ayy) * detInv;
71  Ainv(2, 1) = -(Axx * Azy - Azx * Axy) * detInv;
72  Ainv(2, 2) = +(Axx * Ayy - Ayx * Axy) * detInv;
73 }
static Real detMatrix(const ColumnMajorMatrix &A)
Definition: Element.C:28
void SolidMechanics::Element::polarDecompositionEigen ( const ColumnMajorMatrix &  Fhat,
ColumnMajorMatrix &  Rhat,
SymmTensor strain_increment 
)
staticinherited

Definition at line 182 of file Element.C.

Referenced by SolidMechanics::Nonlinear::computeStrainAndRotationIncrement().

185 {
186  const int ND = 3;
187 
188  ColumnMajorMatrix eigen_value(ND, 1), eigen_vector(ND, ND);
189  ColumnMajorMatrix n1(ND, 1), n2(ND, 1), n3(ND, 1), N1(ND, 1), N2(ND, 1), N3(ND, 1);
190 
191  ColumnMajorMatrix Chat = Fhat.transpose() * Fhat;
192 
193  Chat.eigen(eigen_value, eigen_vector);
194 
195  for (int i = 0; i < ND; i++)
196  {
197  N1(i) = eigen_vector(i, 0);
198  N2(i) = eigen_vector(i, 1);
199  N3(i) = eigen_vector(i, 2);
200  }
201 
202  const Real lamda1 = std::sqrt(eigen_value(0));
203  const Real lamda2 = std::sqrt(eigen_value(1));
204  const Real lamda3 = std::sqrt(eigen_value(2));
205 
206  const Real log1 = std::log(lamda1);
207  const Real log2 = std::log(lamda2);
208  const Real log3 = std::log(lamda3);
209 
210  ColumnMajorMatrix Uhat =
211  N1 * N1.transpose() * lamda1 + N2 * N2.transpose() * lamda2 + N3 * N3.transpose() * lamda3;
212 
213  ColumnMajorMatrix invUhat(ND, ND);
214  invertMatrix(Uhat, invUhat);
215 
216  Rhat = Fhat * invUhat;
217 
218  strain_increment =
219  N1 * N1.transpose() * log1 + N2 * N2.transpose() * log2 + N3 * N3.transpose() * log3;
220 }
static void invertMatrix(const ColumnMajorMatrix &A, ColumnMajorMatrix &Ainv)
Definition: Element.C:49
void SolidMechanics::Element::rotateSymmetricTensor ( const ColumnMajorMatrix &  R,
const RealTensorValue &  T,
RealTensorValue &  result 
)
staticinherited

Definition at line 78 of file Element.C.

Referenced by SolidMechanics::Nonlinear::finalizeStress().

81 {
82 
83  // R T Rt
84  // 00 01 02 00 01 02 00 10 20
85  // 10 11 12 * 10 11 12 * 01 11 21
86  // 20 21 22 20 21 22 02 12 22
87  //
88  const Real T00 = R(0, 0) * T(0, 0) + R(0, 1) * T(1, 0) + R(0, 2) * T(2, 0);
89  const Real T01 = R(0, 0) * T(0, 1) + R(0, 1) * T(1, 1) + R(0, 2) * T(2, 1);
90  const Real T02 = R(0, 0) * T(0, 2) + R(0, 1) * T(1, 2) + R(0, 2) * T(2, 2);
91 
92  const Real T10 = R(1, 0) * T(0, 0) + R(1, 1) * T(1, 0) + R(1, 2) * T(2, 0);
93  const Real T11 = R(1, 0) * T(0, 1) + R(1, 1) * T(1, 1) + R(1, 2) * T(2, 1);
94  const Real T12 = R(1, 0) * T(0, 2) + R(1, 1) * T(1, 2) + R(1, 2) * T(2, 2);
95 
96  const Real T20 = R(2, 0) * T(0, 0) + R(2, 1) * T(1, 0) + R(2, 2) * T(2, 0);
97  const Real T21 = R(2, 0) * T(0, 1) + R(2, 1) * T(1, 1) + R(2, 2) * T(2, 1);
98  const Real T22 = R(2, 0) * T(0, 2) + R(2, 1) * T(1, 2) + R(2, 2) * T(2, 2);
99 
100  result = RealTensorValue(T00 * R(0, 0) + T01 * R(0, 1) + T02 * R(0, 2),
101  T00 * R(1, 0) + T01 * R(1, 1) + T02 * R(1, 2),
102  T00 * R(2, 0) + T01 * R(2, 1) + T02 * R(2, 2),
103 
104  T10 * R(0, 0) + T11 * R(0, 1) + T12 * R(0, 2),
105  T10 * R(1, 0) + T11 * R(1, 1) + T12 * R(1, 2),
106  T10 * R(2, 0) + T11 * R(2, 1) + T12 * R(2, 2),
107 
108  T20 * R(0, 0) + T21 * R(0, 1) + T22 * R(0, 2),
109  T20 * R(1, 0) + T21 * R(1, 1) + T22 * R(1, 2),
110  T20 * R(2, 0) + T21 * R(2, 1) + T22 * R(2, 2));
111 }
void SolidMechanics::Element::rotateSymmetricTensor ( const ColumnMajorMatrix &  R,
const SymmTensor T,
SymmTensor result 
)
staticinherited

Definition at line 116 of file Element.C.

119 {
120 
121  // R T Rt
122  // 00 01 02 00 01 02 00 10 20
123  // 10 11 12 * 10 11 12 * 01 11 21
124  // 20 21 22 20 21 22 02 12 22
125  //
126  const Real T00 = R(0, 0) * T.xx() + R(0, 1) * T.xy() + R(0, 2) * T.zx();
127  const Real T01 = R(0, 0) * T.xy() + R(0, 1) * T.yy() + R(0, 2) * T.yz();
128  const Real T02 = R(0, 0) * T.zx() + R(0, 1) * T.yz() + R(0, 2) * T.zz();
129 
130  const Real T10 = R(1, 0) * T.xx() + R(1, 1) * T.xy() + R(1, 2) * T.zx();
131  const Real T11 = R(1, 0) * T.xy() + R(1, 1) * T.yy() + R(1, 2) * T.yz();
132  const Real T12 = R(1, 0) * T.zx() + R(1, 1) * T.yz() + R(1, 2) * T.zz();
133 
134  const Real T20 = R(2, 0) * T.xx() + R(2, 1) * T.xy() + R(2, 2) * T.zx();
135  const Real T21 = R(2, 0) * T.xy() + R(2, 1) * T.yy() + R(2, 2) * T.yz();
136  const Real T22 = R(2, 0) * T.zx() + R(2, 1) * T.yz() + R(2, 2) * T.zz();
137 
138  result.xx(T00 * R(0, 0) + T01 * R(0, 1) + T02 * R(0, 2));
139  result.yy(T10 * R(1, 0) + T11 * R(1, 1) + T12 * R(1, 2));
140  result.zz(T20 * R(2, 0) + T21 * R(2, 1) + T22 * R(2, 2));
141  result.xy(T00 * R(1, 0) + T01 * R(1, 1) + T02 * R(1, 2));
142  result.yz(T10 * R(2, 0) + T11 * R(2, 1) + T12 * R(2, 2));
143  result.zx(T00 * R(2, 0) + T01 * R(2, 1) + T02 * R(2, 2));
144 }
Real yy() const
Definition: SymmTensor.h:130
Real xx() const
Definition: SymmTensor.h:129
Real zz() const
Definition: SymmTensor.h:131
Real xy() const
Definition: SymmTensor.h:132
Real yz() const
Definition: SymmTensor.h:133
Real zx() const
Definition: SymmTensor.h:134
void SolidMechanics::Element::unrotateSymmetricTensor ( const ColumnMajorMatrix &  R,
const SymmTensor T,
SymmTensor result 
)
staticinherited

Definition at line 149 of file Element.C.

152 {
153 
154  // Rt T R
155  // 00 10 20 00 01 02 00 01 02
156  // 01 11 21 * 10 11 12 * 10 11 12
157  // 02 12 22 20 21 22 20 21 22
158  //
159  const Real T00 = R(0, 0) * T.xx() + R(1, 0) * T.xy() + R(2, 0) * T.zx();
160  const Real T01 = R(0, 0) * T.xy() + R(1, 0) * T.yy() + R(2, 0) * T.yz();
161  const Real T02 = R(0, 0) * T.zx() + R(1, 0) * T.yz() + R(2, 0) * T.zz();
162 
163  const Real T10 = R(0, 1) * T.xx() + R(1, 1) * T.xy() + R(2, 1) * T.zx();
164  const Real T11 = R(0, 1) * T.xy() + R(1, 1) * T.yy() + R(2, 1) * T.yz();
165  const Real T12 = R(0, 1) * T.zx() + R(1, 1) * T.yz() + R(2, 1) * T.zz();
166 
167  const Real T20 = R(0, 2) * T.xx() + R(1, 2) * T.xy() + R(2, 2) * T.zx();
168  const Real T21 = R(0, 2) * T.xy() + R(1, 2) * T.yy() + R(2, 2) * T.yz();
169  const Real T22 = R(0, 2) * T.zx() + R(1, 2) * T.yz() + R(2, 2) * T.zz();
170 
171  result.xx(T00 * R(0, 0) + T01 * R(1, 0) + T02 * R(2, 0));
172  result.yy(T10 * R(0, 1) + T11 * R(1, 1) + T12 * R(2, 1));
173  result.zz(T20 * R(0, 2) + T21 * R(1, 2) + T22 * R(2, 2));
174  result.xy(T00 * R(0, 1) + T01 * R(1, 1) + T02 * R(2, 1));
175  result.yz(T10 * R(0, 2) + T11 * R(1, 2) + T12 * R(2, 2));
176  result.zx(T00 * R(0, 2) + T01 * R(1, 2) + T02 * R(2, 2));
177 }
Real yy() const
Definition: SymmTensor.h:130
Real xx() const
Definition: SymmTensor.h:129
Real zz() const
Definition: SymmTensor.h:131
Real xy() const
Definition: SymmTensor.h:132
Real yz() const
Definition: SymmTensor.h:133
Real zx() const
Definition: SymmTensor.h:134
virtual Real SolidMechanics::Element::volumeRatioOld ( unsigned  ) const
inlinevirtualinherited

Member Data Documentation

const VariableGradient& SolidMechanics::PlaneStrain::_grad_disp_x
protected

Definition at line 36 of file PlaneStrain.h.

Referenced by computeDeformationGradient(), and computeStrain().

const VariableGradient& SolidMechanics::PlaneStrain::_grad_disp_y
protected

Definition at line 37 of file PlaneStrain.h.

Referenced by computeDeformationGradient(), and computeStrain().

bool SolidMechanics::PlaneStrain::_have_scalar_strain_zz
protected

Definition at line 40 of file PlaneStrain.h.

Referenced by computeStrain(), and PlaneStrain().

bool SolidMechanics::PlaneStrain::_have_strain_zz
protected

Definition at line 38 of file PlaneStrain.h.

Referenced by computeStrain(), and PlaneStrain().

const bool SolidMechanics::PlaneStrain::_large_strain
protected

Definition at line 34 of file PlaneStrain.h.

Referenced by computeStrain().

const VariableValue& SolidMechanics::PlaneStrain::_scalar_strain_zz
protected

Definition at line 41 of file PlaneStrain.h.

Referenced by computeStrain().

SolidModel& SolidMechanics::Element::_solid_model
protectedinherited
const VariableValue& SolidMechanics::PlaneStrain::_strain_zz
protected

Definition at line 39 of file PlaneStrain.h.

Referenced by computeStrain().

const bool SolidMechanics::PlaneStrain::_volumetric_locking_correction
protected

Definition at line 42 of file PlaneStrain.h.

Referenced by computeStrain().


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