chrono::fea::ChElementBeamIGA Class Reference
Description
Element of IGA type, with Timoshenko shear etc.
et.. etc. (intro to write) Note: each IGA element represents one "knot span" of the spline!
#include <ChElementBeamIGA.h>
Inheritance diagram for chrono::fea::ChElementBeamIGA:
Collaboration diagram for chrono::fea::ChElementBeamIGA:
Public Member Functions | |
| virtual int | GetNnodes () override |
| Gets the number of nodes used by this element. | |
| virtual int | GetNdofs () override |
| Gets the number of coordinates in the field used by the referenced nodes. More... | |
| virtual int | GetNodeNdofs (int n) override |
| Get the number of coordinates from the n-th node that are used by this element. More... | |
| virtual std::shared_ptr< ChNodeFEAbase > | GetNodeN (int n) override |
| Access the nth node. | |
| virtual std::vector< std::shared_ptr< ChNodeFEAxyzrot > > & | GetNodes () |
| virtual void | SetNodesCubic (std::shared_ptr< ChNodeFEAxyzrot > nodeA, std::shared_ptr< ChNodeFEAxyzrot > nodeB, std::shared_ptr< ChNodeFEAxyzrot > nodeC, std::shared_ptr< ChNodeFEAxyzrot > nodeD, double knotA1, double knotA2, double knotB1, double knotB2, double knotB3, double knotB4, double knotB5, double knotB6) |
| virtual void | SetNodesGenericOrder (std::vector< std::shared_ptr< ChNodeFEAxyzrot >> mynodes, std::vector< double > myknots, int myorder) |
| void | SetIntegrationPoints (int npoints_s, int npoints_b) |
| Set the integration points, for shear components and for bending components: | |
| void | SetSection (std::shared_ptr< ChBeamSectionCosserat > my_material) |
| Set the section & material of beam element . More... | |
| std::shared_ptr< ChBeamSectionCosserat > | GetSection () |
| Get the section & material of the element. | |
| ChVectorDynamic & | GetKnotSequence () |
| Access the local knot sequence of this element (ex.for diagnostics) | |
| double | GetU1 () |
| Get the parametric coordinate at the beginning of the span. | |
| double | GetU2 () |
| Get the parametric coordinate at the end of the span. | |
| virtual void | Update () override |
| Update: this is called at least at each time step. More... | |
| std::vector< std::unique_ptr< ChBeamMaterialInternalData > > & | GetPlasticData () |
| Get the plastic data, in a vector with as many elements as Gauss points. | |
| std::vector< ChVector<> > & | GetStressN () |
| Get the stress, as cut-force [N], in a vector with as many elements as Gauss points. | |
| std::vector< ChVector<> > & | GetStressM () |
| Get the stress, as cut-torque [Nm], in a vector with as many elements as Gauss points. | |
| std::vector< ChVector<> > & | GetStrainE () |
| Get the strain (total=elastic+plastic), as deformation (x is axial strain), in a vector with as many elements as Gauss points. | |
| std::vector< ChVector<> > & | GetStrainK () |
| Get the strain (total=elastic+plastic), as curvature (x is torsion), in a vector with as many elements as Gauss points. | |
| virtual void | GetStateBlock (ChVectorDynamic<> &mD) override |
| Fills the D vector with the current field values at the nodes of the element, with proper ordering. More... | |
| virtual void | ComputeKRMmatricesGlobal (ChMatrixRef H, double Kfactor, double Rfactor=0, double Mfactor=0) override |
| Sets H as the global stiffness matrix K, scaled by Kfactor. More... | |
| virtual void | ComputeInternalForces (ChVectorDynamic<> &Fi) override |
| Computes the internal forces (ex. More... | |
| void | ComputeInternalForces_impl (ChVectorDynamic<> &Fi, ChState &state_x, ChStateDelta &state_w, bool used_for_differentiation=false) |
| virtual void | EvaluateSectionDisplacement (const double eta, ChVector<> &u_displ, ChVector<> &u_rotaz) override |
| Gets the xyz displacement of a point on the beam line, and the rotation RxRyRz of section plane, at abscyssa 'eta'. More... | |
| virtual void | EvaluateSectionPoint (const double eta, ChVector<> &point) |
| Gets the absolute xyz position of a point on the beam line, at abscissa 'eta'. More... | |
| virtual void | EvaluateSectionFrame (const double eta, ChVector<> &point, ChQuaternion<> &rot) override |
| Gets the absolute xyz position of a point on the beam line, and the absolute rotation of section plane, at abscissa 'eta'. More... | |
| virtual void | EvaluateSectionForceTorque (const double eta, ChVector<> &Fforce, ChVector<> &Mtorque) override |
| Gets the force (traction x, shear y, shear z) and the torque (torsion on x, bending on y, on bending on z) at a section along the beam line, at abscissa 'eta'. More... | |
| virtual void | EvaluateSectionStrain (const double eta, ChVector<> &StrainV) override |
| Gets the axial and bending strain of the ANCF "cable" element. | |
| virtual void | EleDoIntegration () override |
| This is optionally implemented if there is some internal state that requires integration. | |
| virtual int | LoadableGet_ndof_x () override |
| Gets the number of DOFs affected by this element (position part) | |
| virtual int | LoadableGet_ndof_w () override |
| Gets the number of DOFs affected by this element (speed part) | |
| virtual void | LoadableGetStateBlock_x (int block_offset, ChState &mD) override |
| Gets all the DOFs packed in a single vector (position part) | |
| virtual void | LoadableGetStateBlock_w (int block_offset, ChStateDelta &mD) override |
| Gets all the DOFs packed in a single vector (speed part) | |
| virtual void | LoadableStateIncrement (const unsigned int off_x, ChState &x_new, const ChState &x, const unsigned int off_v, const ChStateDelta &Dv) override |
| Increment all DOFs using a delta. | |
| virtual int | Get_field_ncoords () override |
| Number of coordinates in the interpolated field, ex=3 for a tetrahedron finite element or a cable, = 1 for a thermal problem, etc. | |
| virtual int | GetSubBlocks () override |
| Tell the number of DOFs blocks (ex. =1 for a body, =4 for a tetrahedron, etc.) | |
| virtual unsigned int | GetSubBlockOffset (int nblock) override |
| Get the offset of the i-th sub-block of DOFs in global vector. | |
| virtual unsigned int | GetSubBlockSize (int nblock) override |
| Get the size of the i-th sub-block of DOFs in global vector. | |
| virtual void | LoadableGetVariables (std::vector< ChVariables * > &mvars) override |
| Get the pointers to the contained ChVariables, appending to the mvars vector. | |
| virtual void | ComputeNF (const double U, ChVectorDynamic<> &Qi, double &detJ, const ChVectorDynamic<> &F, ChVectorDynamic<> *state_x, ChVectorDynamic<> *state_w) override |
| Evaluate N'*F , where N is some type of shape function evaluated at U coordinates of the line, ranging in -1..+1 F is a load, N'*F is the resulting generalized load Returns also det[J] with J=[dx/du,..], that might be useful in gauss quadrature. More... | |
| virtual void | ComputeNF (const double U, const double V, const double W, ChVectorDynamic<> &Qi, double &detJ, const ChVectorDynamic<> &F, ChVectorDynamic<> *state_x, ChVectorDynamic<> *state_w) override |
| Evaluate N'*F , where N is some type of shape function evaluated at U,V,W coordinates of the volume, each ranging in -1..+1 F is a load, N'*F is the resulting generalized load Returns also det[J] with J=[dx/du,..], that might be useful in gauss quadrature. More... | |
| virtual double | GetDensity () override |
| This is needed so that it can be accessed by ChLoaderVolumeGravity. | |
 Public Member Functions inherited from chrono::fea::ChElementBeam | |
| double | GetMass () |
| The full mass of the beam, (with const. section, density, etc.) | |
| double | GetRestLength () |
| The rest length of the bar. | |
| void | SetRestLength (double ml) |
| Set the rest length of the bar (usually this should be automatically done when SetupInitial is called on beams element, given the current state, but one might need to override this, ex for precompressed beams etc). | |
| Public Member Functions inherited from chrono::fea::ChElementGeneric | |
| ChKblockGeneric & | Kstiffness () |
| Access the proxy to stiffness, for sparse solver. | |
| virtual void | EleIntLoadResidual_F (ChVectorDynamic<> &R, const double c) override |
| (This is a default (a bit unoptimal) book keeping so that in children classes you can avoid implementing this EleIntLoadResidual_F function, unless you need faster code) | |
| virtual void | EleIntLoadResidual_Mv (ChVectorDynamic<> &R, const ChVectorDynamic<> &w, const double c) override |
| (This is a default (VERY UNOPTIMAL) book keeping so that in children classes you can avoid implementing this EleIntLoadResidual_Mv function, unless you need faster code.) | |
| virtual void | ComputeMmatrixGlobal (ChMatrixRef M) override |
| Returns the global mass matrix. More... | |
| virtual void | InjectKRMmatrices (ChSystemDescriptor &mdescriptor) override |
| Tell to a system descriptor that there are item(s) of type ChKblock in this object (for further passing it to a solver) | |
| virtual void | KRMmatricesLoad (double Kfactor, double Rfactor, double Mfactor) override |
| Adds the current stiffness K and damping R and mass M matrices in encapsulated ChKblock item(s), if any. More... | |
| virtual void | VariablesFbLoadInternalForces (double factor=1.) override |
| Adds the internal forces, expressed as nodal forces, into the encapsulated ChVariables, in the 'fb' part: qf+=forces*factor (This is a default (a bit unoptimal) book keeping so that in children classes you can avoid implementing this VariablesFbLoadInternalForces function, unless you need faster code) | |
| virtual void | VariablesFbIncrementMq () override |
| Adds M*q (internal masses multiplied current 'qb') to Fb, ex. More... | |
| Public Member Functions inherited from chrono::fea::ChElementBase | |
| virtual void | ComputeNodalMass () |
| Compute element's nodal masses. | |
| Public Member Functions inherited from chrono::ChLoadableUVW | |
| virtual bool | IsTetrahedronIntegrationNeeded () |
| If true, use quadrature over u,v,w in [0..1] range as tetrahedron volumetric coords (with z=1-u-v-w) otherwise use default quadrature over u,v,w in [-1..+1] as box isoparametric coords. | |
| virtual bool | IsTrianglePrismIntegrationNeeded () |
| If true, use quadrature over u,v in [0..1] range as triangle natural coords (with z=1-u-v), and use linear quadrature over w in [-1..+1], otherwise use default quadrature over u,v,w in [-1..+1] as box isoparametric coords. | |
Friends | |
| class | ChExtruderBeamIGA |
Additional Inherited Members | |
| Protected Attributes inherited from chrono::fea::ChElementBeam | |
| double | mass |
| double | length |
| Protected Attributes inherited from chrono::fea::ChElementGeneric | |
| ChKblockGeneric | Kmatr |
Member Function Documentation
◆ ComputeInternalForces()
|
inlineoverridevirtual |
Computes the internal forces (ex.
the actual position of nodes is not in relaxed reference position) and set values in the Fi vector.
Implements chrono::fea::ChElementBase.
◆ ComputeInternalForces_impl()
|
inline |
< here return N and dN/du
- Parameters
-
Fi output vector of internal forces state_x state position to evaluate Fi state_w state speed to evaluate Fi used_for_differentiation used during FD Jacobian evaluation?
◆ ComputeKRMmatricesGlobal()
|
inlineoverridevirtual |
Sets H as the global stiffness matrix K, scaled by Kfactor.
Optionally, also superimposes global damping matrix R, scaled by Rfactor, and global mass matrix M multiplied by Mfactor.
Implements chrono::fea::ChElementBase.
◆ ComputeNF() [1/2]
|
inlineoverridevirtual |
Evaluate N'*F , where N is some type of shape function evaluated at U coordinates of the line, ranging in -1..+1 F is a load, N'*F is the resulting generalized load Returns also det[J] with J=[dx/du,..], that might be useful in gauss quadrature.
< h
- Parameters
-
U eta parametric coordinate in line -1..+1 Qi Return result of Q = N'*F here detJ Return det[J] here F Input F vector, size is =n. field coords. state_x if != 0, update state (pos. part) to this, then evaluate Q state_w if != 0, update state (speed part) to this, then evaluate Q
Implements chrono::ChLoadableU.
◆ ComputeNF() [2/2]
|
inlineoverridevirtual |
Evaluate N'*F , where N is some type of shape function evaluated at U,V,W coordinates of the volume, each ranging in -1..+1 F is a load, N'*F is the resulting generalized load Returns also det[J] with J=[dx/du,..], that might be useful in gauss quadrature.
- Parameters
-
U parametric coordinate in volume V parametric coordinate in volume W parametric coordinate in volume Qi Return result of N'*F here, maybe with offset block_offset detJ Return det[J] here F Input F vector, size is = n.field coords. state_x if != 0, update state (pos. part) to this, then evaluate Q state_w if != 0, update state (speed part) to this, then evaluate Q
Implements chrono::ChLoadableUVW.
◆ EvaluateSectionDisplacement()
|
inlineoverridevirtual |
Gets the xyz displacement of a point on the beam line, and the rotation RxRyRz of section plane, at abscyssa 'eta'.
Note, eta=-1 at node1, eta=+1 at node2. Note, 'displ' is the displ.state of 2 nodes, ex. get it as GetStateBlock() Results are not corotated.
Implements chrono::fea::ChElementBeam.
◆ EvaluateSectionForceTorque()
|
inlineoverridevirtual |
Gets the force (traction x, shear y, shear z) and the torque (torsion on x, bending on y, on bending on z) at a section along the beam line, at abscissa 'eta'.
Note, eta=-1 at node1, eta=+1 at node2.
Implements chrono::fea::ChElementBeam.
◆ EvaluateSectionFrame()
|
inlineoverridevirtual |
Gets the absolute xyz position of a point on the beam line, and the absolute rotation of section plane, at abscissa 'eta'.
Note, eta=-1 at node1, eta=+1 at node2.
< here return in N
Implements chrono::fea::ChElementBeam.
◆ EvaluateSectionPoint()
|
inlinevirtual |
Gets the absolute xyz position of a point on the beam line, at abscissa 'eta'.
Note, eta=-1 at node1, eta=+1 at node2.
< here return in N
◆ GetNdofs()
|
inlineoverridevirtual |
Gets the number of coordinates in the field used by the referenced nodes.
This is for example the size (n.of rows/columns) of the local stiffness matrix.
Implements chrono::fea::ChElementBase.
◆ GetNodeNdofs()
|
inlineoverridevirtual |
Get the number of coordinates from the n-th node that are used by this element.
Note that this may be different from the value returned by GetNodeN(n)->Get_ndof_w();
Implements chrono::fea::ChElementBase.
◆ GetStateBlock()
|
inlineoverridevirtual |
Fills the D vector with the current field values at the nodes of the element, with proper ordering.
If the D vector has not the size of this->GetNdofs(), it will be resized.
Implements chrono::fea::ChElementBase.
◆ SetSection()
|
inline |
Set the section & material of beam element .
It is a shared property, so it can be shared between other beams.
◆ Update()
|
inlineoverridevirtual |
Update: this is called at least at each time step.
If the element has to keep updated some auxiliary data, such as the rotation matrices for corotational approach, this is the proper place.
Reimplemented from chrono::fea::ChElementBase.
The documentation for this class was generated from the following file:
- /builds/uwsbel/chrono/src/chrono/fea/ChElementBeamIGA.h
