www.mooseframework.org
Public Member Functions | Protected Member Functions | Protected Attributes | List of all members
ComputeAxisymmetricRZIncrementalStrain Class Reference

ComputeAxisymmetricRZIncrementalStrain defines a strain increment only for incremental strains in an Axisymmetric simulation. More...

#include <ComputeAxisymmetricRZIncrementalStrain.h>

Inheritance diagram for ComputeAxisymmetricRZIncrementalStrain:
[legend]

Public Member Functions

 ComputeAxisymmetricRZIncrementalStrain (const InputParameters &parameters)
 

Protected Member Functions

void initialSetup () override
 
Real computeGradDispZZ () override
 Computes the current dUz/dz for axisymmetric problems, where \( \epsilon_{\theta} = \frac{u_r}{r} \). More...
 
Real computeGradDispZZOld () override
 Computes the old dUz/dz for axisymmetric problems, where \( \epsilon_{\theta-old} = \frac{u_{r-old}}{r_{old}} \). More...
 
virtual void computeTotalStrainIncrement (RankTwoTensor &total_strain_increment) override
 Computes the current and old deformation gradients with the assumptions for 2D geometries, including plane strain, generalized plane strain, and axisymmetric, and returns the total strain increment tensor. More...
 
virtual void computeProperties () override
 
virtual void initQpStatefulProperties () override
 
void subtractEigenstrainIncrementFromStrain (RankTwoTensor &strain)
 

Protected Attributes

const VariableValue & _disp_old_0
 the old value of the first component of the displacements vector More...
 
std::vector< const VariableGradient * > _grad_disp_old
 
MaterialProperty< RankTwoTensor > & _strain_rate
 
MaterialProperty< RankTwoTensor > & _strain_increment
 
MaterialProperty< RankTwoTensor > & _rotation_increment
 
MaterialProperty< RankTwoTensor > & _deformation_gradient
 
const MaterialProperty< RankTwoTensor > & _mechanical_strain_old
 
const MaterialProperty< RankTwoTensor > & _total_strain_old
 
std::vector< const MaterialProperty< RankTwoTensor > * > _eigenstrains_old
 
unsigned int _ndisp
 Coupled displacement variables. More...
 
std::vector< const VariableValue * > _disp
 
std::vector< const VariableGradient * > _grad_disp
 
std::string _base_name
 
MaterialProperty< RankTwoTensor > & _mechanical_strain
 
MaterialProperty< RankTwoTensor > & _total_strain
 
std::vector< MaterialPropertyName > _eigenstrain_names
 
std::vector< const MaterialProperty< RankTwoTensor > * > _eigenstrains
 
bool _volumetric_locking_correction
 
const Real & _current_elem_volume
 

Detailed Description

ComputeAxisymmetricRZIncrementalStrain defines a strain increment only for incremental strains in an Axisymmetric simulation.

The COORD_TYPE in the Problem block must be set to RZ.

Definition at line 17 of file ComputeAxisymmetricRZIncrementalStrain.h.

Constructor & Destructor Documentation

ComputeAxisymmetricRZIncrementalStrain::ComputeAxisymmetricRZIncrementalStrain ( const InputParameters &  parameters)

Definition at line 22 of file ComputeAxisymmetricRZIncrementalStrain.C.

24  : Compute2DIncrementalStrain(parameters), _disp_old_0(coupledValueOld("displacements", 0))
25 {
26 }
Compute2DIncrementalStrain(const InputParameters &parameters)
const VariableValue & _disp_old_0
the old value of the first component of the displacements vector

Member Function Documentation

Real ComputeAxisymmetricRZIncrementalStrain::computeGradDispZZ ( )
overrideprotectedvirtual

Computes the current dUz/dz for axisymmetric problems, where \( \epsilon_{\theta} = \frac{u_r}{r} \).

Implements Compute2DIncrementalStrain.

Definition at line 36 of file ComputeAxisymmetricRZIncrementalStrain.C.

37 {
38  if (!MooseUtils::absoluteFuzzyEqual(_q_point[_qp](0), 0.0))
39  return (*_disp[0])[_qp] / _q_point[_qp](0);
40  else
41  return 0.0;
42 }
std::vector< const VariableValue * > _disp
Real ComputeAxisymmetricRZIncrementalStrain::computeGradDispZZOld ( )
overrideprotectedvirtual

Computes the old dUz/dz for axisymmetric problems, where \( \epsilon_{\theta-old} = \frac{u_{r-old}}{r_{old}} \).

Implements Compute2DIncrementalStrain.

Definition at line 45 of file ComputeAxisymmetricRZIncrementalStrain.C.

46 {
47  if (!MooseUtils::absoluteFuzzyEqual(_q_point[_qp](0), 0.0))
48  return _disp_old_0[_qp] / _q_point[_qp](0);
49  else
50  return 0.0;
51 }
const VariableValue & _disp_old_0
the old value of the first component of the displacements vector
void ComputeIncrementalSmallStrain::computeProperties ( )
overrideprotectedvirtualinherited

Definition at line 27 of file ComputeIncrementalSmallStrain.C.

28 {
29  Real volumetric_strain = 0.0;
30  for (_qp = 0; _qp < _qrule->n_points(); ++_qp)
31  {
32  RankTwoTensor total_strain_increment;
33  computeTotalStrainIncrement(total_strain_increment);
34 
35  _strain_increment[_qp] = total_strain_increment;
36 
38  volumetric_strain += total_strain_increment.trace() * _JxW[_qp] * _coord[_qp];
39  }
41  volumetric_strain /= _current_elem_volume;
42 
43  for (_qp = 0; _qp < _qrule->n_points(); ++_qp)
44  {
45  Real trace = _strain_increment[_qp].trace();
47  {
48  _strain_increment[_qp](0, 0) += (volumetric_strain - trace) / 3.0;
49  _strain_increment[_qp](1, 1) += (volumetric_strain - trace) / 3.0;
50  _strain_increment[_qp](2, 2) += (volumetric_strain - trace) / 3.0;
51  }
52 
54 
55  // Remove the Eigen strain increment
56  subtractEigenstrainIncrementFromStrain(_strain_increment[_qp]);
57 
58  // strain rate
59  if (_dt > 0)
60  _strain_rate[_qp] = _strain_increment[_qp] / _dt;
61  else
62  _strain_rate[_qp].zero();
63 
64  // Update strain in intermediate configuration: rotations are not needed
65  _mechanical_strain[_qp] = _mechanical_strain_old[_qp] + _strain_increment[_qp];
66  }
67 }
const Real & _current_elem_volume
const MaterialProperty< RankTwoTensor > & _total_strain_old
MaterialProperty< RankTwoTensor > & _strain_increment
MaterialProperty< RankTwoTensor > & _mechanical_strain
virtual void computeTotalStrainIncrement(RankTwoTensor &total_strain_increment)
Computes the current and old deformation gradients and passes back the total strain increment tensor...
MaterialProperty< RankTwoTensor > & _strain_rate
void subtractEigenstrainIncrementFromStrain(RankTwoTensor &strain)
const MaterialProperty< RankTwoTensor > & _mechanical_strain_old
MaterialProperty< RankTwoTensor > & _total_strain
void Compute2DIncrementalStrain::computeTotalStrainIncrement ( RankTwoTensor &  total_strain_increment)
overrideprotectedvirtualinherited

Computes the current and old deformation gradients with the assumptions for 2D geometries, including plane strain, generalized plane strain, and axisymmetric, and returns the total strain increment tensor.

Reimplemented from ComputeIncrementalSmallStrain.

Definition at line 26 of file Compute2DIncrementalStrain.C.

27 {
28  // Deformation gradient calculation for 2D problems
29  // Note: x_disp is the radial displacement, y_disp is the axial displacement
30  RankTwoTensor A(
31  (*_grad_disp[0])[_qp], (*_grad_disp[1])[_qp], (*_grad_disp[2])[_qp]); // Deformation gradient
32  RankTwoTensor Fbar((*_grad_disp_old[0])[_qp],
33  (*_grad_disp_old[1])[_qp],
34  (*_grad_disp_old[2])[_qp]); // Old Deformation gradient
35 
36  // Compute the displacement gradient (2,2) value for plane strain, generalized plane strain, or
37  // axisymmetric problems
38  A(2, 2) = computeGradDispZZ();
39  Fbar(2, 2) = computeGradDispZZOld();
40 
41  _deformation_gradient[_qp] = A;
42  _deformation_gradient[_qp].addIa(1.0);
43 
44  A -= Fbar; // very nearly A = gradU - gradUold, adapted to cylindrical coords
45 
46  total_strain_increment = 0.5 * (A + A.transpose());
47 }
MaterialProperty< RankTwoTensor > & _deformation_gradient
virtual Real computeGradDispZZOld()=0
Computes the old out-of-plane displacement gradient; as a virtual function, this function is overwrit...
std::vector< const VariableGradient * > _grad_disp_old
virtual Real computeGradDispZZ()=0
Computes the current out-of-plane displacement gradient; as a virtual function, this function is over...
std::vector< const VariableGradient * > _grad_disp
void ComputeAxisymmetricRZIncrementalStrain::initialSetup ( )
overrideprotected

Definition at line 29 of file ComputeAxisymmetricRZIncrementalStrain.C.

30 {
31  if (getBlockCoordSystem() != Moose::COORD_RZ)
32  mooseError("The coordinate system must be set to RZ for Axisymmetric geometries.");
33 }
void ComputeIncrementalStrainBase::initQpStatefulProperties ( )
overrideprotectedvirtualinherited

Reimplemented from ComputeStrainBase.

Reimplemented in ComputeCosseratIncrementalSmallStrain.

Definition at line 44 of file ComputeIncrementalStrainBase.C.

Referenced by ComputeCosseratIncrementalSmallStrain::initQpStatefulProperties(), and ComputeIncrementalStrainBase::~ComputeIncrementalStrainBase().

45 {
46  _mechanical_strain[_qp].zero();
47  _total_strain[_qp].zero();
48  _deformation_gradient[_qp].zero();
49  _deformation_gradient[_qp].addIa(1.0);
50 
51  // Note that for some models (small strain), the rotation increment is
52  // never updated. Because we always have stateful properties, this method
53  // always gets called, so we can rely on this getting set here without
54  // setting it again when properties get computed.
55  _rotation_increment[_qp].zero();
56  _rotation_increment[_qp].addIa(1.0);
57 }
MaterialProperty< RankTwoTensor > & _deformation_gradient
MaterialProperty< RankTwoTensor > & _mechanical_strain
MaterialProperty< RankTwoTensor > & _rotation_increment
MaterialProperty< RankTwoTensor > & _total_strain
void ComputeIncrementalStrainBase::subtractEigenstrainIncrementFromStrain ( RankTwoTensor &  strain)
protectedinherited

Definition at line 60 of file ComputeIncrementalStrainBase.C.

Referenced by ComputeIncrementalSmallStrain::computeProperties(), ComputeCosseratIncrementalSmallStrain::computeQpProperties(), ComputeFiniteStrain::computeQpStrain(), and ComputeIncrementalStrainBase::~ComputeIncrementalStrainBase().

61 {
62  for (unsigned int i = 0; i < _eigenstrains.size(); ++i)
63  {
64  strain -= (*_eigenstrains[i])[_qp];
65  strain += (*_eigenstrains_old[i])[_qp];
66  }
67 }
std::vector< const MaterialProperty< RankTwoTensor > * > _eigenstrains_old
std::vector< const MaterialProperty< RankTwoTensor > * > _eigenstrains

Member Data Documentation

std::string ComputeStrainBase::_base_name
protectedinherited

Definition at line 33 of file ComputeStrainBase.h.

Referenced by ComputeStrainBase::ComputeStrainBase().

const Real& ComputeStrainBase::_current_elem_volume
protectedinherited
MaterialProperty<RankTwoTensor>& ComputeIncrementalStrainBase::_deformation_gradient
protectedinherited
std::vector<const VariableValue *> ComputeStrainBase::_disp
protectedinherited
const VariableValue& ComputeAxisymmetricRZIncrementalStrain::_disp_old_0
protected

the old value of the first component of the displacements vector

Definition at line 34 of file ComputeAxisymmetricRZIncrementalStrain.h.

Referenced by computeGradDispZZOld().

std::vector<MaterialPropertyName> ComputeStrainBase::_eigenstrain_names
protectedinherited
std::vector<const MaterialProperty<RankTwoTensor> *> ComputeStrainBase::_eigenstrains
protectedinherited
std::vector<const MaterialProperty<RankTwoTensor> *> ComputeIncrementalStrainBase::_eigenstrains_old
protectedinherited
std::vector<const VariableGradient *> ComputeStrainBase::_grad_disp
protectedinherited
std::vector<const VariableGradient *> ComputeIncrementalStrainBase::_grad_disp_old
protectedinherited
MaterialProperty<RankTwoTensor>& ComputeStrainBase::_mechanical_strain
protectedinherited
const MaterialProperty<RankTwoTensor>& ComputeIncrementalStrainBase::_mechanical_strain_old
protectedinherited
unsigned int ComputeStrainBase::_ndisp
protectedinherited
MaterialProperty<RankTwoTensor>& ComputeIncrementalStrainBase::_rotation_increment
protectedinherited
MaterialProperty<RankTwoTensor>& ComputeIncrementalStrainBase::_strain_increment
protectedinherited
MaterialProperty<RankTwoTensor>& ComputeIncrementalStrainBase::_strain_rate
protectedinherited
MaterialProperty<RankTwoTensor>& ComputeStrainBase::_total_strain
protectedinherited
const MaterialProperty<RankTwoTensor>& ComputeIncrementalStrainBase::_total_strain_old
protectedinherited
bool ComputeStrainBase::_volumetric_locking_correction
protectedinherited

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