Elements
Description
Collaboration diagram for Elements:
Classes | |
| class | chrono::fea::ChElementANCF |
| Base class for ANCF elements. More... | |
| class | chrono::fea::ChElementBar |
| Simple finite element with two nodes and a bar that connects them. More... | |
| class | chrono::fea::ChElementBase |
| Base class for all finite elements, that can be used in the ChMesh physics item. More... | |
| class | chrono::fea::ChElementBeam |
| Base class for most structural elements of 'beam' type. More... | |
| class | chrono::fea::ChElementBeamANCF_3243 |
| ANCF beam element with two nodes. More... | |
| class | chrono::fea::ChElementBeamANCF_3333 |
| ANCF beam element with three nodes. More... | |
| class | chrono::fea::ChElementBeamEuler |
| Simple beam element with two nodes and Euler-Bernoulli formulation. More... | |
| class | chrono::fea::ChElementBeamIGA |
| Isogeometric formulation (IGA) of a Cosserat rod, with large displacements, based on the Geometrically Exact Beam Theory. More... | |
| class | chrono::fea::ChElementBeamTaperedTimoshenko |
| Classical Timoshenko beam element with two nodes, and tapered sections. More... | |
| class | chrono::fea::ChElementBeamTaperedTimoshenkoFPM |
| For composite beams such as wind turbine blades and helicopter rotor blades, the cross-sectional stiffness properties in axial, shear, bending and torsion directions are coupled with each other, hence the fully-populated matrix(FPM) of cross-sectional stiffness properties is used to describe this complex coupling. More... | |
| class | chrono::fea::ChElementCableANCF |
| Simple beam element with two nodes and ANCF gradient-deficient formulation. More... | |
| class | chrono::fea::ChElementCorotational |
| Class for corotational elements (elements with rotation matrices that follow the global motion of the element). More... | |
| class | chrono::fea::ChElementGeneric |
| Class for all elements whose stiffness matrix can be seen as an NxN block-matrix split among N nodes. More... | |
| class | chrono::fea::ChElementHexaANCF_3813 |
| Hexahedronal solid element with 8 nodes (with EAS). More... | |
| class | chrono::fea::ChElementHexaANCF_3813_9 |
| Hexahedronal solid element with 8 nodes and a central curvature node. More... | |
| class | chrono::fea::ChElementHexaANCF_3843 |
| ANCF brick element with eight nodes. More... | |
| class | chrono::fea::ChElementHexaCorot_20 |
| Class for FEA elements of hexahedron type (isoparametric 3D bricks) with 20 nodes. More... | |
| class | chrono::fea::ChElementHexaCorot_8 |
| Class for FEA elements of hexahedron type (isoparametric 3D bricks) with 8 nodes. More... | |
| class | chrono::fea::ChElementHexahedron |
| Base class for a FEA element with hexahedral shape. More... | |
| class | chrono::fea::ChElementShell |
| Base class for most structural elements of 'shell' type. More... | |
| class | chrono::fea::ChElementShellANCF_3423 |
| ANCF laminated shell element with four nodes. More... | |
| class | chrono::fea::ChElementShellANCF_3443 |
| ANCF shell element with four nodes. More... | |
| class | chrono::fea::ChElementShellANCF_3833 |
| ANCF shell element with four nodes. More... | |
| class | chrono::fea::ChElementShellBST |
| A Kirchhoff-Love thin shell element of triangular shape. More... | |
| class | chrono::fea::ChElementShellReissner4 |
| Laminated thick shell with geometrically exact kinematics, with 4 nodes. More... | |
| class | chrono::fea::ChElementSpring |
| Simple finite element with two nodes and a spring/damper between the two nodes. More... | |
| class | chrono::fea::ChElementTetraCorot_10 |
| Tetrahedron FEA element with 10 nodes. More... | |
| class | chrono::fea::ChElementTetraCorot_4 |
| Tetrahedron FEA element with 4 nodes. More... | |
| class | chrono::fea::ChElementTetraCorot_4_P |
| Tetrahedron FEM element with 4 nodes for scalar fields (for Poisson-like problems). More... | |
| class | chrono::fea::ChElementTetrahedron |
| Base class for a FEA element with tetrahedral shape. More... | |
| class | chrono::fea::ChHexahedronFace |
| Face of a hexahedron-shaped element. More... | |
| class | chrono::fea::ChMaterialBeamANCF |
| Definition of materials to be used for ANCF beams utilizing the Enhanced Continuum Mechanics based method. More... | |
| class | chrono::fea::ChMaterialHexaANCF |
| Definition of materials to be used for ANCF brick elements. More... | |
| class | chrono::fea::ChMaterialShellANCF |
| Definition of materials to be used for ANCF shells. More... | |
| class | chrono::fea::ChElasticityKirchhoff |
| Base interface for elasticity of thin shells (Kirchoff-Love shell theory, without shear effects) to be used in a ChMaterialShellKirchhoff. More... | |
| class | chrono::fea::ChElasticityKirchhoffIsothropic |
| Isothropic elasticity for thin shells (Kirchoff-Love shell theory, without shear effects) to be used in a ChMaterialShellKirchhoff. More... | |
| class | chrono::fea::ChElasticityKirchhoffOrthotropic |
| Orthotropic elasticity for thin shells (Kirchoff-Love shell theory, without shear effects) to be used in a ChMaterialShellKirchhoff. More... | |
| class | chrono::fea::ChElasticityKirchhoffGeneric |
| Generic linear elasticity for thin shells (Kirchoff-Love shell theory, without shear effects) to be used in a ChMaterialShellKirchhoff. More... | |
| class | chrono::fea::ChShellKirchhoffInternalData |
| Base class for internal variables of Kirchhoff thin shells materials. More... | |
| class | chrono::fea::ChPlasticityKirchhoff |
| Base interface for plasticity of thin shells (Kirchoff-Love shell theory, without shear effects) to be used in a ChMaterialShellKirchhoff. More... | |
| class | chrono::fea::ChDampingKirchhoff |
| Base interface for damping of thin shells (Kirchoff-Love shell theory, without shear effects) to be used in a ChMaterialShellKirchhoff. More... | |
| class | chrono::fea::ChDampingKirchhoffRayleigh |
| Simple Rayleight damping of a Kirchhoff shell layer, where damping is proportional to stiffness via a beta coefficient. More... | |
| class | chrono::fea::ChMaterialShellKirchhoff |
| Material for a single layer of a thin shell (Kirchoff-Love shell theory, i.e. More... | |
| class | chrono::fea::ChElasticityReissner |
| Base interface for elasticity of 6-field Reissner-Mindlin shells (kinematically-exact shell theory as in Witkowski et al.) to be used in a ChMaterialShellReissner. More... | |
| class | chrono::fea::ChElasticityReissnerIsothropic |
| Elasticity of 6-field Reissner-Mindlin shells (kinematically-exact shell theory as in Witkowski et al.) to be used in a ChMaterialShellReissner. More... | |
| class | chrono::fea::ChElasticityReissnerOrthotropic |
| Elasticity of 6-field Reissner-Mindlin shells (kinematically-exact shell theory as in Witkowski et al.) to be used in a ChMaterialShellReissner. More... | |
| class | chrono::fea::ChElasticityReissnerGeneric |
| Generic linear elasticity for 6-field Reissner-Mindlin shells (kinematically-exact shell theory as in Witkowski et al.) to be used in a ChMaterialShellReissner. More... | |
| class | chrono::fea::ChShellReissnerInternalData |
| Base class for internal variables of Reissner shells materials. More... | |
| class | chrono::fea::ChPlasticityReissner |
| Base interface for plasticity of 6-field Reissner-Mindlin shells (kinematically-exact shell theory as in Witkowski et al.) to be used in a ChMaterialShellReissner. More... | |
| class | chrono::fea::ChDampingReissner |
| Base interface for damping of 6-field Reissner-Mindlin shells (kinematically-exact shell theory as in Witkowski et al.) to be used in a ChMaterialShellReissner. More... | |
| class | chrono::fea::ChDampingReissnerRayleigh |
| Simple Rayleight damping of a Reissner-mindlin shell, where damping is proportional to stiffness via a beta coefficient. More... | |
| class | chrono::fea::ChMaterialShellReissner |
| Material for a single layer of a 6-field Reissner-Mindlin shells (kinematically-exact shell theory as in Witkowski et al). More... | |
| class | chrono::fea::ChMaterialShellReissnerIsothropic |
| For backward compatibility only! New approach: create a ChElasticityReissnerOrthotropic and create a ChMaterialShellReissner by passing the elasticity as a parameter. More... | |
| class | chrono::fea::ChMaterialShellReissnerOrthotropic |
| For backward compatibility only! New approach: create a ChElasticityReissnerOrthotropic and create a ChMaterialShellReissner by passing the elasticity as a parameter. More... | |
| class | chrono::fea::ChTetrahedronFace |
| Face of a tetrahedron-shaped element. More... | |
