#include <elasticity_tensor.h>
Public Member Functions  
DeviatoricIsotropicElasticityTensor ()  
Constructor. For use with incompressibility. Requires no parameters since Poisson's ratio is fixed at 0.5 and lambda is set to a dummy value of 0 (since it would be infinite) More...  
DeviatoricIsotropicElasticityTensor (const double &nu, const double &E)  
Constructor. Passing in the values of the Poisson's ratio and Young's modulus (interpreted as the ratio of the actual Young's modulus to the Young's modulus (or other reference stiffness) used to nondimensionalise stresses and tractions in the governing equations). More...  
DeviatoricIsotropicElasticityTensor (const double &nu)  
Constructor. Passing in the value of the Poisson's ratio. Stresses and tractions in the governing equations are assumed to have been nondimensionalised on Young's modulus. More...  
DeviatoricIsotropicElasticityTensor (const Vector< double > &lame)  
Constructur. Passing in the values of the two lame coefficients directly (interpreted as the ratios of these quantities to a reference stiffness used to nondimensionalised. More...  
double  independent_component (const unsigned &i) const 
Overload the independent coefficient function. More...  
const double &  lambda () const 
Accessor function for the first lame parameter. More...  
const double &  mu () const 
Accessor function for the second lame parameter. More...  
Public Member Functions inherited from oomph::ElasticityTensor  
virtual  ~ElasticityTensor () 
Empty virtual Destructor. More...  
double  operator() (const unsigned &i, const unsigned &j, const unsigned &k, const unsigned &l) const 
Return the appropriate independent component via the index translation scheme (const version). More...  
virtual void  set_value (const unsigned &i, const unsigned &j, const unsigned &k, const unsigned &l, const double &value) 
Allow the values to be set (virtual function that must be overloaded if values can be set directly. More...  
virtual  ~ElasticityTensor () 
Empty virtual Destructor. More...  
double  operator() (const unsigned &i, const unsigned &j, const unsigned &k, const unsigned &l) const 
Return the appropriate independent component via the index translation scheme (const version). More...  
Private Member Functions  
void  set_lame_coefficients (const double &lambda, const double &mu) 
Private Attributes  
double  C [3] 
double  Lambda 
double  Mu 
Static Private Attributes  
static const unsigned  StaticIndex [21] 
Translation scheme for the deviatoric isotropic elasticity tensor. More...  
Additional Inherited Members  
Protected Member Functions inherited from oomph::ElasticityTensor  
void  range_check (const unsigned &i, const unsigned &j, const unsigned &k, const unsigned &l) const 
Helper range checking function (Note that this only captures overruns in 3D but errors are likely to be caught in evaluation of the stress and strain tensors anyway...) More...  
ElasticityTensor ()  
Empty Constructor. More...  
void  range_check (const unsigned &i, const unsigned &j, const unsigned &k, const unsigned &l) const 
Helper range checking function (Note that this only captures overruns in 3D but errors are likely to be caught in evaluation of the stress and strain tensors anyway...) More...  
ElasticityTensor ()  
Empty Constructor. More...  
Static Protected Attributes inherited from oomph::ElasticityTensor  
static const unsigned  Index [3][3][3][3] 
Translation table from the four indices to the corresponding independent component. More...  
An isotropic elasticity tensor defined in terms of Young's modulus and Poisson's ratio. The elasticity tensor is assumed to be nondimensionalised on some reference value for Young's modulus so the value provided to the constructor (if any) is to be interpreted as the ratio of the actual Young's modulus to the Young's modulus used to nondimensionalise the stresses/tractions in the governing equations.
Definition at line 226 of file poroelasticity/elasticity_tensor.h.

inline 
Constructor. For use with incompressibility. Requires no parameters since Poisson's ratio is fixed at 0.5 and lambda is set to a dummy value of 0 (since it would be infinite)
Definition at line 246 of file poroelasticity/elasticity_tensor.h.
References C, oomph::QuadTreeNames::E, lambda(), mu(), and set_lame_coefficients().

inline 
Constructor. Passing in the values of the Poisson's ratio and Young's modulus (interpreted as the ratio of the actual Young's modulus to the Young's modulus (or other reference stiffness) used to nondimensionalise stresses and tractions in the governing equations).
Definition at line 261 of file poroelasticity/elasticity_tensor.h.
References C, lambda(), mu(), and set_lame_coefficients().

inline 
Constructor. Passing in the value of the Poisson's ratio. Stresses and tractions in the governing equations are assumed to have been nondimensionalised on Young's modulus.
Definition at line 274 of file poroelasticity/elasticity_tensor.h.
References C, oomph::QuadTreeNames::E, lambda(), mu(), and set_lame_coefficients().

inline 
Constructur. Passing in the values of the two lame coefficients directly (interpreted as the ratios of these quantities to a reference stiffness used to nondimensionalised.
Definition at line 289 of file poroelasticity/elasticity_tensor.h.
References C, and set_lame_coefficients().

inlinevirtual 
Overload the independent coefficient function.
Reimplemented from oomph::ElasticityTensor.
Definition at line 298 of file poroelasticity/elasticity_tensor.h.
References C, i, and StaticIndex.

inline 
Accessor function for the first lame parameter.
Definition at line 302 of file poroelasticity/elasticity_tensor.h.
References Lambda.
Referenced by DeviatoricIsotropicElasticityTensor(), and set_lame_coefficients().

inline 
Accessor function for the second lame parameter.
Definition at line 308 of file poroelasticity/elasticity_tensor.h.
References Mu.
Referenced by DeviatoricIsotropicElasticityTensor(), and set_lame_coefficients().

inlineprivate 
Definition at line 316 of file poroelasticity/elasticity_tensor.h.
References C, Lambda, lambda(), Mu, and mu().
Referenced by DeviatoricIsotropicElasticityTensor().

private 
Definition at line 229 of file poroelasticity/elasticity_tensor.h.
Referenced by DeviatoricIsotropicElasticityTensor(), independent_component(), and set_lame_coefficients().

private 
Definition at line 232 of file poroelasticity/elasticity_tensor.h.
Referenced by lambda(), and set_lame_coefficients().

private 
Definition at line 235 of file poroelasticity/elasticity_tensor.h.
Referenced by mu(), and set_lame_coefficients().

staticprivate 
Translation scheme for the deviatoric isotropic elasticity tensor.
Definition at line 239 of file poroelasticity/elasticity_tensor.h.
Referenced by independent_component().