Public Member Functions | Protected Member Functions | Protected Attributes | Static Protected Attributes | List of all members
oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT > Class Template Reference

A class for elements that allow the imposition of an applied traction in the equations of time-harmonic linear elasticity from a Helmholtz potential (interpreted as a displacement potential for the fluid in a quasi-steady, linearised FSI problem.) The geometrical information can be read from the FaceGeometry<ELEMENT> class and and thus, we can be generic enough without the need to have a separate equations class. More...

#include <helmholtz_time_harmonic_linear_elasticity_interaction.h>

Inheritance diagram for oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >:

Public Member Functions

 TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement (FiniteElement *const &element_pt, const int &face_index)
 Constructor, which takes a "bulk" element and the value of the index and its limit. More...
 
void fill_in_contribution_to_residuals (Vector< double > &residuals)
 Return the residuals. More...
 
void fill_in_contribution_to_jacobian (Vector< double > &residuals, DenseMatrix< double > &jacobian)
 Fill in contribution from Jacobian. More...
 
const double & q () const
 Return the ratio of the stress scales used to non-dimensionalise the fluid and elasticity equations. E.g. $ Q = (\omega a)^2 \rho/E $, i.e. the ratio between the inertial fluid stress and the solid's elastic modulus E. More...
 
double *& q_pt ()
 Return a pointer the ratio of stress scales used to non-dimensionalise the fluid and solid equations. More...
 
void output (std::ostream &outfile)
 Output function. More...
 
void output (std::ostream &outfile, const unsigned &n_plot)
 Output function: Plot traction etc at Gauss points nplot is ignored. More...
 
void output (FILE *file_pt)
 C_style output function. More...
 
void output (FILE *file_pt, const unsigned &n_plot)
 C-style output function. More...
 

Protected Member Functions

void fill_in_contribution_to_residuals_helmholtz_traction (Vector< double > &residuals)
 Helper function that actually calculates the residuals. More...
 

Protected Attributes

double * Q_pt
 Pointer to the ratio, $ Q $ , of the stress used to non-dimensionalise the fluid stresses to the stress used to non-dimensionalise the solid stresses. More...
 
Vector< std::complex< unsigned > > U_index_time_harmonic_linear_elasticity_helmholtz_traction
 Index at which the i-th displacement component is stored. More...
 

Static Protected Attributes

static double Default_Q_Value = 1.0
 Static default value for the ratio of stress scales used in the fluid and solid equations (default is 1.0) More...
 

Detailed Description

template<class ELASTICITY_BULK_ELEMENT, class HELMHOLTZ_BULK_ELEMENT>
class oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >

A class for elements that allow the imposition of an applied traction in the equations of time-harmonic linear elasticity from a Helmholtz potential (interpreted as a displacement potential for the fluid in a quasi-steady, linearised FSI problem.) The geometrical information can be read from the FaceGeometry<ELEMENT> class and and thus, we can be generic enough without the need to have a separate equations class.

Definition at line 45 of file helmholtz_time_harmonic_linear_elasticity_interaction.h.

Constructor & Destructor Documentation

◆ TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement()

template<class ELASTICITY_BULK_ELEMENT , class HELMHOLTZ_BULK_ELEMENT >
oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement ( FiniteElement *const &  element_pt,
const int &  face_index 
)
inline

Member Function Documentation

◆ fill_in_contribution_to_jacobian()

template<class ELASTICITY_BULK_ELEMENT , class HELMHOLTZ_BULK_ELEMENT >
void oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::fill_in_contribution_to_jacobian ( Vector< double > &  residuals,
DenseMatrix< double > &  jacobian 
)
inline

◆ fill_in_contribution_to_residuals()

template<class ELASTICITY_BULK_ELEMENT , class HELMHOLTZ_BULK_ELEMENT >
void oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::fill_in_contribution_to_residuals ( Vector< double > &  residuals)
inline

◆ fill_in_contribution_to_residuals_helmholtz_traction()

template<class ELASTICITY_BULK_ELEMENT , class HELMHOLTZ_BULK_ELEMENT >
void oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::fill_in_contribution_to_residuals_helmholtz_traction ( Vector< double > &  residuals)
protected

◆ output() [1/4]

template<class ELASTICITY_BULK_ELEMENT , class HELMHOLTZ_BULK_ELEMENT >
void oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::output ( FILE *  file_pt)
inline

C_style output function.

Definition at line 240 of file helmholtz_time_harmonic_linear_elasticity_interaction.h.

◆ output() [2/4]

template<class ELASTICITY_BULK_ELEMENT , class HELMHOLTZ_BULK_ELEMENT >
void oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::output ( FILE *  file_pt,
const unsigned &  n_plot 
)
inline

C-style output function.

Definition at line 246 of file helmholtz_time_harmonic_linear_elasticity_interaction.h.

◆ output() [3/4]

template<class ELASTICITY_BULK_ELEMENT , class HELMHOLTZ_BULK_ELEMENT >
void oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::output ( std::ostream &  outfile)
inline

Output function.

Dummy

Definition at line 166 of file helmholtz_time_harmonic_linear_elasticity_interaction.h.

◆ output() [4/4]

template<class ELASTICITY_BULK_ELEMENT , class HELMHOLTZ_BULK_ELEMENT >
void oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::output ( std::ostream &  outfile,
const unsigned &  n_plot 
)
inline

◆ q()

template<class ELASTICITY_BULK_ELEMENT , class HELMHOLTZ_BULK_ELEMENT >
const double& oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::q ( ) const
inline

Return the ratio of the stress scales used to non-dimensionalise the fluid and elasticity equations. E.g. $ Q = (\omega a)^2 \rho/E $, i.e. the ratio between the inertial fluid stress and the solid's elastic modulus E.

Definition at line 152 of file helmholtz_time_harmonic_linear_elasticity_interaction.h.

References oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::Q_pt.

Referenced by oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::output().

◆ q_pt()

template<class ELASTICITY_BULK_ELEMENT , class HELMHOLTZ_BULK_ELEMENT >
double*& oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::q_pt ( )
inline

Return a pointer the ratio of stress scales used to non-dimensionalise the fluid and solid equations.

Definition at line 159 of file helmholtz_time_harmonic_linear_elasticity_interaction.h.

References oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::Q_pt.

Member Data Documentation

◆ Default_Q_Value

template<class ELASTICITY_BULK_ELEMENT , class HELMHOLTZ_BULK_ELEMENT >
double oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::Default_Q_Value = 1.0
staticprotected

Static default value for the ratio of stress scales used in the fluid and solid equations (default is 1.0)

//////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////

Static default value for the ratio of stress scales used in the fluid and solid equations (default is 1.0)

Definition at line 58 of file helmholtz_time_harmonic_linear_elasticity_interaction.h.

◆ Q_pt

template<class ELASTICITY_BULK_ELEMENT , class HELMHOLTZ_BULK_ELEMENT >
double* oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::Q_pt
protected

Pointer to the ratio, $ Q $ , of the stress used to non-dimensionalise the fluid stresses to the stress used to non-dimensionalise the solid stresses.

Definition at line 54 of file helmholtz_time_harmonic_linear_elasticity_interaction.h.

Referenced by oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::q(), and oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::q_pt().

◆ U_index_time_harmonic_linear_elasticity_helmholtz_traction

template<class ELASTICITY_BULK_ELEMENT , class HELMHOLTZ_BULK_ELEMENT >
Vector<std::complex<unsigned> > oomph::TimeHarmonicLinElastLoadedByHelmholtzPressureBCElement< ELASTICITY_BULK_ELEMENT, HELMHOLTZ_BULK_ELEMENT >::U_index_time_harmonic_linear_elasticity_helmholtz_traction
protected

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