\newcommand{\SegmentParamDomain}[1]{\QuantityRelatedTo{\ParamDomain}{#1}} \newcommand{\StrainGreenLagrangeVoigt}{\tilde{\StrainGreenLagrangeTen}} \newcommand{\VolumeDeformSMap}{\ManifoldMap{\VolumeRefClosureS}{\VolumeCurrClosureS}}
\newcommand{\ManifoldCoeffsSetBernstein}{\QuantityRelatedTo{\Set{\SymbolManifoldCoeffBernsteinUpper}}{\MeshBezier}} \newcommand{\SymbolBodyForce}{b} \newcommand{\Hex}{\Segment{}_{h}} \newcommand{\GateauxDerivPartial}[2]{\frac{\partial #1}{\partial #2}} \newcommand{\Disp}{\Vec{u}} \newcommand{\LambdaLM}[1]{\QFO{\lambda}{#1}} \newcommand{\UsplineNullVectorIds}{\Set{id}} \newcommand{\NearestCells}[3][]{\Set{C}_{#1}\left(#2,#3\right)} \newcommand{\BernsteinBasisFuncIndexTupleAlt}{\Set{\BernsteinBasisFuncIdAlt}} \newcommand{\StiffnessGeometricMat}{\StiffnessMat^{g}} \newcommand{\CurveDeformTemporalMapDef}{\ManifoldTemporalMapDef{\CurveRef}{\CurveCurr}} \newcommand{\QuantityFunctionOfNoArg}[1]{{#1}} \newcommand{\ResidualComp}{\SymbolResidual} \newcommand{\ParentS}{\ParentCoord_0} Topics include basic usage of the CUBIT graphical user interface, geometry preparation, meshing algorithms, boundary condition assignment, and mesh quality principles. \newcommand{\VolumeDeformTemporalMapDef}{\ManifoldTemporalMapDef{\VolumeRef}{\VolumeCurr}} \newcommand{\MeshBezier}{\boldsymbol{\textsf{B}}} \newcommand{\YieldSurfaceNormalComp}{\SymbolYieldSurfaceNormal} \newcommand{\TracForceCurrCompPointLoad}{p^{\TracForceCurrComp}} \newcommand{\SpatialDim}{\SymbolSpatialDim} \newcommand{\DispFieldRefMComp}{\DispFieldRefComp^m} \newcommand{\ManifoldUsplineMap}{\ManifoldMap{\ParamDomainOnMeshUspline}{\Manifold}} \newcommand{\SuperscriptrHkP}{\UClassIrregular\UClassContFinite\UClassLocalSmoothness\UClassGlobalDegree} \newcommand{\SymbolArbitraryCoeffUspline}{c} The next CUBIT 100 and 200 training is scheduled on May 8-10, 2023. \newcommand{\UClassGlobalSmoothness}{K}
Cubit Estimating Update: 10.1.2 now available - Buildsoft \newcommand{\SymbolVolumeCurr}{\SymbolVolume} \newcommand{\SpatialCoordVecCentroid}{\SpatialCoordVec^{\SymbolCentroid}} \newcommand{\TracForceCurrCompDistributedLoad}{\DistributedLoad^{\TracForceCurrComp}} \newcommand{\SymbolContactGap}{g} \newcommand{\ParamDomainEnvGCoordVec}{\ParamCoordVecSimple^{\ParamDomainEnvG}} \newcommand{\ManifoldCoeffSetBernstein}{\QuantityRelatedTo{\Set{\SymbolManifoldCoeffBernstein}}{\MeshBezier}} \newcommand{\EulerRotAngle}{\theta} \newcommand{\QFO}[2]{\QuantityFunctionOf{#1}{#2}} \newcommand{\PressureContactProjected}{\overline{\SymbolPressureContact}_{\UsplineBasisFuncId}} \newcommand{\SymbolArea}{A} \newcommand{\SubmeshGrevillePointSetUnion}[1]{\QuantityFunctionOf{\Set{\SymbolSubmeshModifier{GU}}}{#1}} \newcommand{\SymbolQuadratureSet}{Q} \newcommand{\StressCauchyNormalYY}{\StressCauchyComp_{\SpatialCoordY\SpatialCoordY}} \newcommand{\ParentCoordVec}{\Vec{\ParentCoord}} \newcommand{\SymbolSpatialDim}{n} \newcommand{\DispTestSpaceOverVolumeRefG}{\delta \DispTrialSpaceOverVolumeRefG} \newcommand{\SymbolUspline}{U} \newcommand{\ParamDomainBdryDisp}{\ParamDomainBdry^{\SymbolDisp}} \newcommand{\PerpKPlusOneCellSet}{\boldsymbol{\textsf{PC}}}%changed from mathsf \newcommand{\StrainShearCompXZ}{\StrainShearComp_{\SpatialCoordX\SpatialCoordZ}} CUBIT implements a Python scripting capability that allows users to run the commands with or without the GUI. \newcommand{\UsplineBasisFuncIdTwo}{\UsplineBasisFuncId_1} \newcommand{\NonZeroIndices}{\operatorname{\mathsf{nzi}}} \newcommand{\SuperscriptrHKp}{\UClassIrregular\UClassContFinite\UClassGlobalSmoothness\UClassLocalDegree} \newcommand{\VolumeRef}{\Set{\SymbolVolumeRef}} \newcommand{\SurfaceRefContactGCoord}{\RefCoord{\SurfaceRefContactG}} Experience the benefits of Cubit Estimating and Cubit Select for yourself with a free trial, including all the features to help you maximize your success. \newcommand{\RibbonTailOrigin}{\textsf{o}} \newcommand{\LegendreBasisFunc}[3]{\SQFOCO{\Func[P]}{#1}{#2}{#3}} \newcommand{\RefCovar}[1]{\Vec{G}_{#1}} \newcommand{\Transpose}[1]{\left(#1\right)^{T}} \newcommand{\ManifoldUsplineEnv}{\SymbolEnvModifier{\ManifoldUspline}} \newcommand{\RefinedBezierMesh}{\RefinedModifier{\MeshBezier}} \newcommand{\CurCovar}[1]{\Vec{g}_{#1}} \newcommand{\DimIdAlt}{n} \newcommand{\SurfaceRefContactS}{\SurfaceRef^{c,s}} \newcommand{\CovariantBasisVolVec}{\Vec{\SymbolCovariantBasisVol}} \newcommand{\CurvatureTen}{\Mat{\CurvatureComp}} \newcommand{\ContactHalfWidth}{b} \newcommand{\StressKirchhoffTen}{\Mat{\tau}} \newcommand{\RibbonIsTruncated}{\Set{trunc}} \newcommand{\Support}[1]{\operatorname{supp}(#1)} \newcommand{\NullVectorSetGrevilleSets}{\boldsymbol{\textsf{BG}}}%changed from mathsf \newcommand{\SurfaceRefContactMMapDef}{\ManifoldMapDef{\ParamDomainBdryContactM}{\SurfaceRefContactM}} \newcommand{\LaminaSymbolUpper}{L} \newcommand{\AABBCornerLower}{\Vec{c}^l} \newcommand{\ApproximateIntegrationError}[1]{\tilde{e}_{#1}} \newcommand{\MinParallelPerpDegree}[2]{\QuantityFunctionOf{\BernsteinDegree^{\parallel,\perp}_{\min}}{#1,#2}} \newcommand{\ManifoldUspline}{\ManifoldRelatedTo{\MeshUspline}} \newcommand{\LaminaMetricSymbol}{j} \newcommand{\SpaceLinear}[1]{\mathnormal{#1}} \newcommand{\ShellExtMomentBody}{\Vec{\ShellMomentSymbol}^{ext}_b} \newcommand{\UsplineClassRhkP}{\UsplineClass{\SuperscriptRhkP}} This t. \newcommand{\UsplineBasisFunc}{\SymbolBasisUspline} \newcommand{\VolumeRefS}{\VolumeRef^{s}} \newcommand{\SubmeshGrevilleMaxPointSetRight}{\SubmeshGrevilleMaxPointSet{\CellBeta}} \newcommand{\ManifoldPartitionMapDef}{\ManifoldMapDef{\ParamDomainOnPartition}{\Manifold}} \newcommand{\SolutionLagrange}{\Solution^{\LagrangeMultCurrComp}} The decomposition tutorial provides several examples (including sample data) that you can use to become familiar with these tools. \newcommand{\BaseParentDomain}{\BaseModifier{\ParentDomain}} \newcommand{\VolumeEnvCurrG}{\VolumeEnvCurr^{\alpha}} \newcommand{\RotVec}{\boldsymbol{\omega}} \newcommand{\SymbolSurface}{s} \newcommand{\StressPKTwoTen}{\Mat{\StressPKTwoComp}} \newcommand{\Norm}[2]{\left\lVert #2 \right\rVert_{#1}} \newcommand{\ParentDim}{\SymbolDim} \newcommand{\HierarchicalModifier}[1]{{#1}_{\HierarchicalSymbol}} \newcommand{\UnitNormalCurrSComp}{\UnitNormalCurrComp^s} \newcommand{\RibbonSkeleton}[1]{\operatorname{skel}(#1)} \newcommand{\SpatialCoordVecToSegmentSetMapMElem}{\operatorname{ce}} \newcommand{\PressureContactInterpolated}{\hat{\SymbolPressureContact}} \newcommand{\MeshSize}{h} \newcommand{\UsplineBasisFuncIdAlt}{B} \newcommand{\UClassGlobalDegree}{P} \newcommand{\SurfaceCurrContactMMapDef}{\ManifoldMapDef{\ParamDomainBdryContactM}{\SurfaceCurrContactM}} \newcommand{\ParentGrevillePointFunctionOf}[2]{\QuantityChildOf{#1}{\QuantityFunctionOf{\Set{\SymbolParentModifier{\SymbolGrevillePoint}}}{#2}}} \newcommand{\BernsteinBasisFuncIndexTupleB}{\Set{\BernsteinBasisFuncIdB}}
Coreform Cubit Reference Manual \newcommand{\HierarchicalUsplineMesh}{\HierarchicalModifier{\MeshUspline}} \newcommand{\SubmeshGrevilleMaxPoint}[1]{\QuantityChildOf{#1}{\Set{\SymbolGrevillePoint}}_{\max}} \newcommand{\ArbitraryVector}[1]{\QSB{v}{#1}} \newcommand{\dPointCurr}{\Differential[\PointCurr]} \newcommand{\FlexImmersed}{\Flex{\infty}} \newcommand{\LegendreBasisMat}[1]{\QCO{#1}{\Mat{P}}} \newcommand{\ChebyshevBasisFuncNoArg}[1]{\SQCO{\Func[T]}{#1}{}} \newcommand{\BernToChebMat}{\Mat{T}} \newcommand{\EulerVecSinc}{\boldsymbol{\Theta}} \newcommand{\NullVectorIndexEquivClass}[1]{\QuantityFunctionOf{\boldsymbol{\textsf{EBI}}}{#1}} \newcommand{\UClassRegular}{R} \newcommand{\DegSmoothDiff}[2]{\delta_{#1}^{#2}} \newcommand{\RayAlgBernIndexVariable}{\BernsteinBasisFuncIdSet} \newcommand{\DCT}{\operatorname{DCT}} In the Select PDF pages window, select the pages of the plan that you would like to insert into Cubit Estimating. The videos include Cubit, Bartender and Mudshark and cover various features within each package. \newcommand{\CurveCurrCoord}{\CurrCoord{\CurveRef}} \newcommand{\ParamDomainClosureS}{\overline{\ParamDomain}^s} \newcommand{\SymbolManifoldCoeffUpper}{X} \newcommand{\DivVolumeEnvCurr}[1]{\Div{\VolumeEnvCurrCoordVec}{#1}} \newcommand{\NullVectorFunctionOf}[1]{\QuantityFunctionOf{\NullVector}{#1}} \newcommand{\DispFieldRefMTen}{\DispFieldRefTen^m} \newcommand{\RefShellProjectedBasis}[1]{\Vec{P}_{#1}} \newcommand{\CurConfigDirichMidBound}{\Gamma^g} \newcommand{\QuadratureWeightEnv}[2]{\SymbolEnvModifier{\QuadratureWeight{#1}{#2}}} \newcommand{\Integers}{\mathbb{Z}} \newcommand{\ParamConfigDirichMidBound}{\Gamma_\xi^g} \newcommand{\DeformGradSTen}{\DeformGradTen^s} \newcommand{\StrainGreenLagrangeComp}{\SymbolStrainGreenLagrange} \newcommand{\SymbolEnvModifier}[1]{\star\mspace{-1mu} #1} \newcommand{\Solution}{\Vec{\SymbolSolution}} Coreform CUBIT is a commercial branding of the CUBIT software. \newcommand{\Chebfun}[3]{\biggl(\, \sum_{#2=0}^{#1}{#3}_{#2}\ChebyshevBasisFuncNoArg{#2}\biggr)} \newcommand{\ElemInterfDiffSet}[1]{\Set{T}_{#1}} \newcommand{\SymbolDeformCauchyGreenLeft}{b} \newcommand{\ModuliElastRefVoigt}{\tilde{\ModuliElastRefTen}} \newcommand{\BernsteinDegreeInTRight}{\QuantityChildOf{\CellToTheRight}{\BernsteinDegreeInT}} \newcommand{\PowerBasisFunc}[2]{\QCO{#2}{#1}} \newcommand{\CurConfig}{\Omega} However, once a user becomes comfortable with meshing in Coreform Cubit, the ITEM wizard workflow may become limiting. \newcommand{\UClassIrregular}{r} \newcommand{\SymbolStrainSymGrad}{\epsilon} \newcommand{\CompositeNullVectorSet}{\NullVectorSet^{\prime\prime}} \newcommand{\DeformGradIncDevTen}{\bar{\Mat{\DeformGradIncComp}}} \newcommand{\UnitNormalRefVec}[1]{\Vec{N}_{#1}} The CUBIT 15.7 Release Notes provide a description of all the new features included in CUBIT 15.7. \newcommand{\GenericDeformMap}{\Vec{\varphi}} 1.1.1.5Bulk data export option for Abaqus and LS-DYNA, 1.1.3.2Mesh and geometric entity measurement, 1.1.3.7Webcut offset robustness improvement, 1.1.3.8Improved performance of autosize in large assemblies, 1.2Release Notes: Coreform Cubit 2022.11, 1.2.1Support for Python 2 has been deprecated, 1.2.2Updates to the build uspline command, 1.2.3.2Increased control of Command panel layout, 1.2.4.4Enhanced ability to obtain mesh in blocks, sidesets, and nodesets, 1.2.4.5New option in collapse tet command, 1.2.4.6Syntax changes for set node constraint command, 1.2.5.3Specify surfaces by location with tolerance, 1.2.8Defects Fixed in Coreform Cubit 2022.11, 1.3.2.1 Selection by entity name in graphics window, 1.3.3.1 New Mass Increase Ratio metric added to Cubit, 1.3.4.1ACIS kernel updated to Version 2021.1.0.1, 1.3.6.1 Enhancements to Free Entity Selection, 1.3.6.2Added support for Corvid Velodyne files, 1.3.7 Defects Fixed in Coreform Cubit 2022.4, 1.3.8 Enhancements in Coreform Cubit 2022.4, 1.4Release Notes: Coreform Cubit 2021.11, 2.2.1Geometry Creation, Modification, and Healing, 3.1.1Starting and Exiting a Cubit Session, 3.1.1.1Starting the Session in Cubit Command Mode, 3.1.8Saving and Restoring a Cubit Session, 3.2.6.4Right Click Commands for the GUI Graphics Window, 3.3.2Controlling Playback of Journal Files, 3.4.1Command Line View Navigation: Zoom, Pan and Rotate, 3.4.2Mouse Based View Navigation: Zoom, Pan and Rotate, 3.4.5Drawing, Locating, and Highlighting Entities, 3.4.8Drawing Locations, Lines and Polygons, 3.4.17Geometry and Mesh Entity Visibility, 3.5.2Extended Command Line Entity Specification, 3.5.3.1.1Specifying the type of entity to select, 3.5.3.6.2Echoing the ID of the Selection, 3.5.3.6.3Using the Picked Group in Commands, 3.5.3.7.1Creating and Modifying Selections, 3.6Location, Direction, Plane and Axis Specification, 3.6.7Drawing a Location, Direction, or Axis, 3.7.2.2List Surface [range] Ids Examples. \newcommand{\SubmeshGrevilleDifferenceVectorLeft}{\Delta\SubmeshGrevilleMaxPointLeft} \newcommand{\DeformGradMDet}{\Det{\DeformGradMTen}} \newcommand{\VolumeEnvDeformSMap}{\ManifoldMap{\VolumeEnvRefS}{\VolumeEnvCurrS}} \newcommand{\dCurveRef}{\Differential[\CurveRef]} \newcommand{\EnergyElasticNoArg}{\QFONA{\Energy}} \newcommand{\SpaceContKDef}[3]{\SpaceContK{#1}\left(#2; #3\right)} \newcommand{\CellSet}[1]{\Set{C}^{#1}} \newcommand{\ParentGrevillePointSet}[1]{\QuantityFunctionOf{\Set{\SymbolParentModifier{G}}}{#1}} \newcommand{\Topology}{\mathsf{T}} Most are applicable to CUBIT. \newcommand{\StressCauchyShearXZ}{\StressCauchyShear_{\SpatialCoordX\SpatialCoordZ}} \newcommand{\SurfaceMap}{\ManifoldMap{\ParamDomainBdry}{\Surface}} \newcommand{\BernIndexOnSpecificRibbonTailInterf}[1]{\RibbonAlgBernIndexVariable_{#1}} \newcommand{\PenaltyStiffness}{\SymbolPenalty_{\SymbolStiffness}} \newcommand{\SegmentSetOutside}{\SegmentSet^{\SymbolOutside}} CUBIT supplies a comprehensive set of features for surface and solid meshing. \newcommand{\AlgNameComputeCoreGraph}{ComputeCoreGraph} \newcommand{\LowerBound}[2]{B^l\left(#1,#2\right)} \newcommand{\SymbolConstraint}{g} \newcommand{\PointCADModified}{\PointRelatedTo{\SymbolCADModified}} \newcommand{\StiffnessLagrangeMat}{\StiffnessMat^{\LagrangeMultCurrComp}} \newcommand{\DBParamWeight}{\omega} \newcommand{\NodalLinearInertia}[1]{A_{#1}}
Training | Cubit \newcommand{\SolutionDisp}{\Solution^{\DispFieldCurrComp}} \newcommand{\SubscriptedQuantityChildOf}[3]{{#1}_{#2}^{#3}} \newcommand{\InclDistSet}[2]{\Set{INC}^{#1,#2}} \newcommand{\UsplineBasisFuncCoeffAlt}{\SymbolArbitraryCoeffUsplineAlt} \newcommand{\CurveUspline}{\CurveRelatedTo{\MeshUspline}} \newcommand{\SurfaceRefFict}{\SurfaceRef^{\SymbolFict}} \newcommand{\ConsistencyParameterPlasticDiscrete}{\Delta \SymbolConsistencyParameterPlastic} \newcommand{\EnergyContactOverVolumeEnvRefSAndMDef}{\FuncDef{\EnergyContact}{\DispTrialSpaceOverVolumeEnvRefSAndM}{\Reals}} \newcommand{\DomainBdry}{\Gamma} \newcommand{\ParamDomainBdryContactMCoord}{\ParamCoordSimple^{\ParamDomainBdryContactM}} \newcommand{\UsplineClassRhKp}{\UsplineClass{\SuperscriptRhKp}} \newcommand{\IndexOnCell}[2]{\QuantityChildOf{#1}{#2}} \newcommand{\BodyForceOverVolumeEnvCurrTenDef}{\BodyForceCurrTen \DefEq \BodyForceRefTen \circ \Inverse{\VolumeEnvDeformMap}} \newcommand{\dSurfaceCurr}{\Differential[\SurfaceCurr]} \newcommand{\AbsoluteValue}[1]{\Size{#1}} Standalone Installation
MiTek - Cubit Software \newcommand{\ParamConfigSigBound}{\Gamma_\xi^\sigma} \newcommand{\StressCauchyTractionVec}{\Vec{t}} \newcommand{\StressCauchyMean}{p} \newcommand{\VolumeCurrClosureS}{\VolumeCurrClosure^s} \newcommand{\StrainSymGradCompXX}{\StrainSymGradComp_{\SpatialCoordX\SpatialCoordX}} \newcommand{\Ident}{\Mat{I}} Cubit Estimating and Cubit Select are designed to make your work easier, with specialized functionality that allows you to speed up your estimating process, increase your accuracy, bid for more work, and win more jobs. \newcommand{\ManifoldPartitionMapCoord}{\ManifoldCoordDetailed{\ManifoldPartitionMap}{\ManifoldCoord}} \newcommand{\SymbolVelocity}{v} \newcommand{\CurvCoordIdOne}{\SymbolCurvCoordIdOne} \newcommand{\SymbolManifoldCoeffUsplineUpper}{X} \newcommand{\StressCauchyShearDetailed}[1]{\StressCauchyShear_{#1}} \newcommand{\SetRoster}[1]{\left\{ #1 \right\}} Classroom tutorials are advertised on the CUBIT Tutorial Webpage, where you can also find a download for self-guided tutorials. \newcommand{\ElemInterfPairPerp}[1]{\QuantityFunctionOf{\Set{t}^\perp}{#1}}
Coreform Cubit tutorials \newcommand{\SurfaceRefTracExternal}{\SurfaceRefTrac\setminus\SurfaceRefFict} \newcommand{\SymbolPlasticModuliScaling}{\beta} \newcommand{\ConstraintSetFunctionOf}[1]{\QuantityFunctionOf{\ConstraintSet}{#1}} \newcommand{\Edge}{\Set{e}} \newcommand{\StressCauchyResultantForceShear}{V} \newcommand{\KPlusOneCellNullVectorForCellBeta}{\NullVectorArbitrary{n}_{\KPlusOneCellBeta}} \newcommand{\InterfaceSmoothness}[1]{\QuantityChildOf{#1}{\Smoothness}} \newcommand{\IndexSetOfNonZeroEntriesInMapMatOnRowFunctionOf}[2]{\QuantityFunctionOf{\IndexSetOfNonZeroEntriesInMapMatOnRow_{#1}}{#2}} \newcommand{\EvaluateOneLimit}[2]{\left.#1\right\rvert_{#2}} \newcommand{\OrthogonalComplement}[1]{\left(#1\right)^\perp} \newcommand{\ShellStrainCurve}[1]{\boldsymbol{\chi}_{#1}} \newcommand{\SymbolEnergy}{\Pi} \newcommand{\SurfaceRefContactGMapDef}{\ManifoldMapDef{\ParamDomainBdryContactG}{\SurfaceRefContactG}} \newcommand{\IntDomainInline}[1]{\int_{#1}} A continuation of CUBIT 100, this 1.5-day class is held immediately following CUBIT 100. \newcommand{\Decomp}{\operatorname{dec}} \newcommand{\ParamLengthLeft}{\QuantityChildOf{\CellToTheLeft}{\ParamLength}} \newcommand{\SubmeshDomainChart}[1]{\QuantityChildOf{#1}{\Vec{\varphi}}} \newcommand{\KthLeibnizFracSpecificFunction}[3]{\frac{d^{#2}}{d#3^{#2}}\Func[#1]} \newcommand{\ParamDomainEnvSCoordVec}{\ParamCoordVecSimple^{\ParamDomainEnvS}} \newcommand{\BlockSymbol}{\textsf{B}} \newcommand{\RibbonTailInterf}{\Interface} \newcommand{\SpaceLinearN}[1]{\SpaceLinear{#1}^h} \newcommand{\bcdot}{\boldsymbol{\cdot}} \newcommand{\SubmeshDomain}{\SymbolSubmeshModifier{\SymbolDomain}} \newcommand{\CellArbitrary}[1]{\Set{#1}} \newcommand{\BasisTransMatrix}[2]{\Mat{R}_{{#1}\rightarrow{#2}}} \begin{bmatrix} \DotProduct{\Vec{m}_3}{\Vec{v}} \newcommand{\PartitionTessellationOfUspline}{\PartitionTessellation{\MeshUspline}} \newcommand{\EnergyEnvG}{\EnergyEnv^\alpha} \newcommand{\SurfaceRefCoord}{\RefCoord{\SurfaceRef}} \newcommand{\NullVectorSet}{\boldsymbol{\textsf{BV}}}%changed from mathsf \newcommand{\RefinementLevelMesh}[1]{\MeshBezier_{#1}} For more advanced users, Power Tools combine logical groupings of Coreform Cubit features together. \newcommand{\DiscretePointSetS}{\Set{SP}} \newcommand{\SymbolStiffness}{K} \newcommand{\MatIdCol}{n} Commercial or academic users of the software, please contact coreform.com for training options. \newcommand{\UnitNormalCurrSTen}{\UnitNormalCurrTen^s} \newcommand{\SurfaceRefDisp}{\SurfaceRef^{\SymbolDisp}} \newcommand{\RefContra}[1]{\Vec{G}^{#1}} \newcommand{\PerpOfKPlusOneCellInterfSet}[1]{\QuantityFunctionOf{\boldsymbol{\textsf{PI}}}{#1}} \newcommand{\ConstraintMat}{\Mat{\Constraint}} \newcommand{\JAsDeformGradDet}{J} \newcommand{\CodimTwoCell}{\Set{w}} \newcommand{\BernsteinBasisFuncCoeffsVec}{\QuantityRelatedTo{\Vec{\SymbolArbitraryCoeffBernstein}}{\MeshBezier}} \newcommand{\ManifoldCoeffsVec}{\Vec{\ManifoldCoeffUpper}} \newcommand{\DeformMap}{\varphi} \newcommand{\SpaceSobolevKDef}[3]{\SpaceSobolevK{#1}\left(#2 ; #3\right)} \newcommand{\DispFieldOverCurveRefTenDef}{\FuncDef{\DispFieldRefTen}{\CurveRef}{\SpatialDomain}} \newcommand{\SymbolEnergyDensityStrain}{\Psi} \newcommand{\KPlusOneCellNullVectorAlignedSubset}[2]{\QuantityFunctionOf{\boldsymbol{\textsf{HBV}}_{#1}}{#2}} \newcommand{\QuadraturePointToElemIndexMap}[1]{\operatorname{qe}(#1)} \newcommand{\ParamConfigNeuMidBound}{\Gamma_\xi^h} Finally, the geometry decomposition tools are some of the most powerful and unique features in Coreform Cubit, and are used to prepare a model for semi-automatic hex meshing. \newcommand{\FrechetDeriv}[2]{D{#1}\left(#2\right)} \newcommand{\BlockModifier}[1]{{#1}_{\BlockSymbol}} \newcommand{\ElementWiseLessOrEqual}{\preceq} \newcommand{\SurfaceCurrDispCoord}{\CurrCoord{\SurfaceCurrDisp}} \newcommand{\ResidualExternal}{\Vec{R}^{ext}} \newcommand{\BernsteinBasisFuncCoeffsSet}{\QuantityRelatedTo{\boldsymbol{\Set{\SymbolArbitraryCoeffBernstein}}}{\MeshBezier}} \newcommand{\ManifoldPartition}{\ManifoldRelatedTo{\Partition}} \newcommand{\SymbolPartition}{\boldsymbol{\vartriangle}} The mesh sizing framework also has the ability to build mesh sizing functions based on physics-based analysis results imported via Exodus meshes. \newcommand{\BasisFuncId}{i} \newcommand{\LinearInterpolationOp}[1]{\QRT{\SymbolLinearInterpolation}{#1}} \newcommand{\UnitNormalCurrVec}[1]{\Vec{n}_{#1}} \newcommand{\TracForceOverCurveCurrCompDef}{\TracForceCurrComp \DefEq \TracForceRefComp \circ \Inverse{\CurveDeformMap}} \newcommand{\UnitNormalRefTen}{\Vec{\UnitNormalRefComp}} \newcommand{\SymbolMetric}{m} \newcommand{\BodyForceRefComp}{\SymbolBodyForceUpper} \newcommand{\BaseTopoLoop}{\mathsf{P}} \newcommand{\StrainShearComp}{\gamma} \newcommand{\SQCO}[3]{\SubscriptedQuantityChildOf{#1}{#2}{#3}} Here are three ways to mesh this simple CAD model (download the CAD geometry here: simple.sat). \newcommand{\ParamDomainEnvGCoord}{\ParamCoordSimple^{\ParamDomainEnvG}} \newcommand{\Flops}{\operatorname{flops}} \newcommand{\SurfaceRefDispToParamDomainEnvMapInverseDef}{\ManifoldMapInverseDef{\ParamDomainEnv}{\SurfaceRefDisp}} \newcommand{\VelFieldCurrTen}{\Vec{\SymbolVelocity}} \newcommand{\UpperDBMat}{\Mat{U}}
Cubit Fast-start Tutorial 21. Sculpt. (Conference) | OSTI.GOV \newcommand{\VolumeCurrClosureGMap}{\ManifoldMap{\ParamDomainClosureG}{\VolumeCurrClosureG}} \newcommand{\SuperscriptRHkP}{\UClassRegular\UClassContFinite\UClassLocalSmoothness\UClassGlobalDegree} \newcommand{\DispTrialSpaceOverVolumeEnvRefS}{\SpaceHilbert{U}(\VolumeEnvRefS)}
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