documentation/lin3DHexa8_8hpp_source.html

 //==============================================================================
 //
 //                       Seismo Virtual Laboratory
 //             Module for Serial and Parallel Analysis of seismic
 //         wave propagation and soil-structure interaction simulation
 //         Copyright (C) 2018-2021, The California Institute of Technology
 //                         All Rights Reserved.
 //
 // Commercial use of this program without express permission of the California
 // Institute of Technology, is strictly  prohibited. See  file "COPYRIGHT"  in
 // main  directory  for  information on  usage  and  redistribution, and for a
 // DISCLAIMER OF ALL WARRANTIES.
 //
 //==============================================================================
 //
 // Written by:
 //   Danilo S. Kusanovic (dkusanov@caltech.edu)
 //   Elnaz E. Seylabi    (elnaze@unr.edu)
 //
 // Supervised by:
 //   Domniki M. Asimaki  (domniki@caltech.edu)
 //
 // References :
 //  [1] Finite Element Procedures, Bathe, K.J., Chapter 5: pages 342-348.
 //      Prentice-Hall, 1996.
 //
 // Description:
 //------------------------------------------------------------------------------

 #ifndef _LIN3DHEXA8_HPP_
 #define _LIN3DHEXA8_HPP_

 #include <map>
 #include <memory>
 #include <string>
 #include <Eigen/Dense>

 #include "Node.hpp"
 #include "Load.hpp"
 #include "Material.hpp"
 #include "Element.hpp"
 #include "Damping.hpp"
 #include "QuadratureRule.hpp"

 class lin3DHexa8 : public Element{

     public:
         lin3DHexa8(const std::vector<unsigned int> nodes, std::unique_ptr<Material> &material, const std::string quadrature="GAUSS", const unsigned int nGauss=8);

         ~lin3DHexa8();

         void CommitState();

         void ReverseState();

         void InitialState();

         void UpdateState();

         void SetDomain(std::map<unsigned int, std::shared_ptr<Node> > &nodes);

         void SetDamping(const std::shared_ptr<Damping> &damping);

         std::vector<unsigned int> GetTotalDegreeOfFreedom() const;

         Eigen::MatrixXd GetStrain() const;

         Eigen::MatrixXd GetStress() const;

         Eigen::MatrixXd GetStrainRate() const;

         Eigen::MatrixXd GetStrainAt(double x3, double x2) const;

         Eigen::MatrixXd GetStressAt(double x3, double x2) const;

         Eigen::VectorXd GetVTKResponse(std::string response) const;

         double ComputeEnergy();

         Eigen::MatrixXd ComputeMassMatrix();

         Eigen::MatrixXd ComputeStiffnessMatrix();

         Eigen::MatrixXd ComputeDampingMatrix();

         Eigen::MatrixXd ComputePMLMatrix();

         Eigen::VectorXd ComputeInternalForces();

         Eigen::VectorXd ComputeInternalDynamicForces();

         Eigen::VectorXd ComputeSurfaceForces(const std::shared_ptr<Load> &surface, unsigned int face);

         Eigen::VectorXd ComputeBodyForces(const std::shared_ptr<Load> &body, unsigned int k=0);

         Eigen::VectorXd ComputeDomainReductionForces(const std::shared_ptr<Load> &drm, unsigned int k);

     private:
         std::shared_ptr<Damping> theDamping;

         std::vector<std::shared_ptr<Node> > theNodes;

         std::vector<std::unique_ptr<Material> > theMaterial;

         std::unique_ptr<QuadratureRule> QuadraturePoints;

         Eigen::VectorXd ComputeStrain(const Eigen::MatrixXd &Bij) const;

         Eigen::VectorXd ComputeStrainRate(const Eigen::MatrixXd &Bij) const;

         Eigen::MatrixXd ComputeJacobianMatrix(const double ri, const double si, const double ti) const;

         Eigen::MatrixXd ComputeShapeFunctionMatrix(const double ri, const double si, const double ti) const;

         Eigen::MatrixXd ComputeStrainDisplacementMatrix(const double ri, const double si, const double ti, const Eigen::MatrixXd &Jij) const;

         Eigen::MatrixXd ComputeInitialStiffnessMatrix() const;
 };

 #endif
lin3DHexa8::GetStrain
Eigen::MatrixXd GetStrain() const
Gets the material/section (generalised) strain.

lin3DHexa8::InitialState
void InitialState()
Brings the material/section state to its initial state in this element.

lin3DHexa8::ComputeInternalDynamicForces
Eigen::VectorXd ComputeInternalDynamicForces()
Compute the elastic, inertial, and viscous forces acting on the element.

lin3DHexa8::ComputeInitialStiffnessMatrix
Eigen::MatrixXd ComputeInitialStiffnessMatrix() const
Compute the stiffness matrix of the element using gauss-integration.

Load.hpp
This file contains the "Load" class declarations, which defines a load that can act in a node or an e...

lin3DHexa8::ComputeDomainReductionForces
Eigen::VectorXd ComputeDomainReductionForces(const std::shared_ptr< Load > &drm, unsigned int k)
Compute the domain reduction forces acting on the element.

lin3DHexa8::theNodes
std::vector< std::shared_ptr< Node > > theNodes
The Element&#39;s Nodes.
Definition: lin3DHexa8.hpp:204

lin3DHexa8::lin3DHexa8
lin3DHexa8(const std::vector< unsigned int > nodes, std::unique_ptr< Material > &material, const std::string quadrature="GAUSS", const unsigned int nGauss=8)
Creates a lin3DHexa8 in a finite element Mesh.

lin3DHexa8::QuadraturePoints
std::unique_ptr< QuadratureRule > QuadraturePoints
Coordinate of Gauss points.
Definition: lin3DHexa8.hpp:210

lin3DHexa8::ComputeShapeFunctionMatrix
Eigen::MatrixXd ComputeShapeFunctionMatrix(const double ri, const double si, const double ti) const
Evaluates the shape function matrix at a given Gauss point.

lin3DHexa8::GetVTKResponse
Eigen::VectorXd GetVTKResponse(std::string response) const
Gets the element internal response in VTK format for Paraview display.

Material.hpp
This file contains the abstract "Material object" declarations, which computes the strain...

lin3DHexa8::GetStrainRate
Eigen::MatrixXd GetStrainRate() const
Gets the material/section (generalised) strain-rate.

lin3DHexa8::GetStrainAt
Eigen::MatrixXd GetStrainAt(double x3, double x2) const
Gets the material strain in section at coordinate (x3,x2).

lin3DHexa8::ComputeJacobianMatrix
Eigen::MatrixXd ComputeJacobianMatrix(const double ri, const double si, const double ti) const
Computes the jacobian of the transformation.

lin3DHexa8::ComputeStrain
Eigen::VectorXd ComputeStrain(const Eigen::MatrixXd &Bij) const
Update strain in the element.

lin3DHexa8::SetDamping
void SetDamping(const std::shared_ptr< Damping > &damping)
Sets the damping model.

lin3DHexa8::ComputeStrainRate
Eigen::VectorXd ComputeStrainRate(const Eigen::MatrixXd &Bij) const
Update strain rate in the element.

lin3DHexa8::~lin3DHexa8
~lin3DHexa8()
Destroys this lin3DHexa8 object.

lin3DHexa8::ComputeEnergy
double ComputeEnergy()
Computes the element energy for a given deformation.

lin3DHexa8::ComputeMassMatrix
Eigen::MatrixXd ComputeMassMatrix()
Compute the lumped/consistent mass matrix of the element.

lin3DHexa8::ComputeStiffnessMatrix
Eigen::MatrixXd ComputeStiffnessMatrix()
Compute the stiffness matrix of the element using gauss-integration.

lin3DHexa8::ReverseState
void ReverseState()
Reverse the material/section states to previous converged state in this element.

lin3DHexa8::ComputeStrainDisplacementMatrix
Eigen::MatrixXd ComputeStrainDisplacementMatrix(const double ri, const double si, const double ti, const Eigen::MatrixXd &Jij) const
Evaluates the strain-displacement matrix at a given Gauss point.

Element
Virtual class for creating an element in a mesh.
Definition: Element.hpp:51

lin3DHexa8::ComputeBodyForces
Eigen::VectorXd ComputeBodyForces(const std::shared_ptr< Load > &body, unsigned int k=0)
Compute the body forces acting on the element.

lin3DHexa8
Class for creating a 3D linearized eight-node hexahedron element in a mesh.
Definition: lin3DHexa8.hpp:54

lin3DHexa8::CommitState
void CommitState()
Save the material states in the element.

lin3DHexa8::GetStress
Eigen::MatrixXd GetStress() const
Gets the material/section (generalised) stress.

lin3DHexa8::theMaterial
std::vector< std::unique_ptr< Material > > theMaterial
The Element&#39;s material.
Definition: lin3DHexa8.hpp:207

Node.hpp
This file contains the "Node object" declarations, which is stores the coordinates, state variables, degrees-of-freedom, and total-degree of freedom lists of a node in a finite element mesh.

lin3DHexa8::ComputeInternalForces
Eigen::VectorXd ComputeInternalForces()
Compute the internal (elastic) forces acting on the element.

lin3DHexa8::ComputePMLMatrix
Eigen::MatrixXd ComputePMLMatrix()
Compute the PML history matrix using gauss-integration.

Damping.hpp
This file contains the "Damping object" declarations to update damping matrix to account for Caughey-...

lin3DHexa8::theDamping
std::shared_ptr< Damping > theDamping
The Damping model.
Definition: lin3DHexa8.hpp:201

lin3DHexa8::GetTotalDegreeOfFreedom
std::vector< unsigned int > GetTotalDegreeOfFreedom() const
Gets the list of total-degree of freedom of this Element.

lin3DHexa8::ComputeDampingMatrix
Eigen::MatrixXd ComputeDampingMatrix()
Compute the damping matrix of the element using gauss-integration.

lin3DHexa8::GetStressAt
Eigen::MatrixXd GetStressAt(double x3, double x2) const
Gets the material stress in section at coordinate (x3,x2).

lin3DHexa8::UpdateState
void UpdateState()
Update the material states in the element.

lin3DHexa8::ComputeSurfaceForces
Eigen::VectorXd ComputeSurfaceForces(const std::shared_ptr< Load > &surface, unsigned int face)
Compute the surface forces acting on the element.

lin3DHexa8::SetDomain
void SetDomain(std::map< unsigned int, std::shared_ptr< Node > > &nodes)
Sets the finite element dependance among objects.

QuadratureRule.hpp
This file contains the abstract "Quadrature Rule" declarations to integrate quantities in the iso-par...

Element.hpp
This file contains the "Element" object declarations, which defines an element in a finite element me...