\newcommand{\ParamLengthLeftT}{\QuantityChildOf{\CellToTheLeft}{\ParamLengthInT}} 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{\UsplineClassrHkP}{\UsplineClass{\SuperscriptrHkP}} It covers the bloc package (version 6.0.3) in all flavors: bloc, flutter_bloc hydrated_bloc, replay_bloc, bloc_test and cubit. \newcommand{\NumUsplineBasisFuncsG}{\Size{\UsplineBasisFuncSetOnMeshUspline^\alpha}} \newcommand{\SumInline}[2]{\sum_{#1}^{#2}} \newcommand{\SymbolDeformCauchyGreenRight}{C} \newcommand{\SpaceLTwoDef}[2]{\SpaceLTwo\left(#1; #2\right)} \newcommand{\CurConfigDirichBound}{\Gamma^\gamma} \newcommand{\ManifoldUspline}{\ManifoldRelatedTo{\MeshUspline}} \newcommand{\SparsestPossibleBasisOnCell}[1]{\QFO{\Set{N}}{#1}} \newcommand{\RefContra}[1]{\Vec{G}^{#1}} \newcommand{\FuncsTouchingActiveFuncs}[1]{\Set{T}_{#1}} \newcommand{\BaseTopoMixed}{\mathsf{M}} \newcommand{\StrainGreenLagrangeOverCurveRefTenDef}{\FuncDef{\StrainGreenLagrangeTen}{\CurveRef}{\CurveCurr}} Downloads. \newcommand{\DNE}{\operatorname{DNE}} \newcommand{\DimIdTwo}{\DimId_1} \newcommand{\StiffnessMatA}{\hat{\Mat{N}}} \newcommand{\StiffnessContact}{\StiffnessMat^{c,n}} Extensions. \newcommand{\SpatialCoordVecToSegmentSetMap}{\SegmentSet^f} \newcommand{\UsplineBasisFuncCoeffAlt}{\SymbolArbitraryCoeffUsplineAlt} \newcommand{\EulerVec}{\boldsymbol{\vartheta}} \newcommand{\EmbeddedMesh}{\EmbeddedModifier{\MeshTopo}} \newcommand{\SymbolTracForce}{h} \newcommand{\ResidualComp}{\SymbolResidual} \newcommand{\NumBernsteinBasisFuncsOnElem}{\Size{\IndexSetFunctionOf{\Elem}}} \newcommand{\ParamDomainEnvS}{\ParamDomainEnv^{s}} \newcommand{\RefSectionPos}{\Vec{R}} \newcommand{\SurfaceRefDispMap}{\ManifoldMap{\ParamDomainBdryDisp}{\SurfaceRefDisp}} \newcommand{\ForceVec}{\Vec{\SymbolForce}} \newcommand{\RayTailSize}{\Size{\RayTail}} \newcommand{\BodyForceCurrComp}{\SymbolBodyForce} \newcommand{\BoundaryOp}{\mathop{\partial}} \newcommand{\FlexInfty}{\mathcal{F}{\infty}} \newcommand{\SubmeshGrevilleMinPointSetRight}{\SubmeshGrevilleMinPointSet{\CellBeta}} \newcommand{\BodyForceCurrCompAxialLoad}{f^{\BodyForceCurrComp}} \newcommand{\ManifoldCoeffsVec}{\Vec{\ManifoldCoeffUpper}} \newcommand{\PointRef}{\Set{\SymbolPointRef}} \newcommand{\MaxPerpCont}[1]{\QuantityFunctionOf{\Smoothness^{\perp}_{\max}}{#1}} \newcommand{\DispFieldOverVolumeEnvRefGTenDef}{\ManifoldMapDef{\VolumeEnvRefG}{\DispFieldRefGTen}} \newcommand{\Point}{\Set{\SymbolPoint}} \newcommand{\UsplineBasisFuncParamDomainBdryContactS}{\UsplineBasisFunc^{\ParamDomainBdryContactS}} \newcommand{\ParentT}{\ParentCoord_1} \newcommand{\SymbolSurfaceUpper}{S} \newcommand{\SubmeshGrevilleDifferenceVector}{\Delta\SubmeshGrevilleMaxPoint{a}} \newcommand{\ParamDomainEnvG}{\ParamDomainEnv^{\alpha}} \newcommand{\Ray}{\Set{r}} \newcommand{\UsplineBasisFuncCoeffsVec}{\QuantityRelatedTo{\Vec{\SymbolArbitraryCoeffUspline}}{\MeshUspline}} \newcommand{\SymbolVolumeUpper}{V} \newcommand{\MetricComp}{\SymbolMetric} \newcommand{\SurfaceRefTracToParamDomainEnvMapInverseDef}{\ManifoldMapInverseDef{\ParamDomainEnv}{\SurfaceRefTrac}} \newcommand{\VolumeEnvDeformMMap}{\ManifoldMap{\VolumeEnvRefM}{\VolumeEnvCurrM}} \newcommand{\SQFO}[3]{\SubscriptedQuantityFunctionOf{#1}{#2}{#3}} \newcommand{\UsplineNullVectorSetOnMeshBezier}{\NullVectorSetFunctionOf{\MeshBezier}} \newcommand{\Force}{F} \newcommand{\StrainShearCompYZ}{\StrainShearComp_{\SpatialCoordY\SpatialCoordZ}} The mesh sizing framework also has the ability to build mesh sizing functions based on physics-based analysis results imported via Exodus meshes. \newcommand{\ToGlobalDartOp}{\operatorname*{\mathsf{G}}} \newcommand{\BaseTopoPatch}{\mathsf{H}} \newcommand{\UsplineBasisFuncS}{\UsplineBasisFunc^{s}} \newcommand{\VolumeRefSMap}{\ManifoldMap{\ParamDomainS}{\VolumeRefS}} \newcommand{\ChebyshevBasisFunc}[2]{\SQFO{\Func[T]}{#1}{#2}} Takeoff Faster. \newcommand{\ManifoldUsplineInterior}{\QRT{\SymbolInteriorModifier{\Manifold}}{\MeshUspline}} \newcommand{\VolumeEnvRefCoord}{\RefCoord{\VolumeEnvRef}} \newcommand{\UsplineBasisFuncIdOne}{\UsplineBasisFuncId_0} \newcommand{\ManifoldTemporalMap}[2]{\QuantityRelatedTo{#2}{#1,\SymbolTime}} \newcommand{\ParentGrevillePoint}[1]{\QuantityChildOf{#1}{\Set{\SymbolParentModifier{\SymbolGrevillePoint}}}} \newcommand{\Disp}{\Vec{u}} \newcommand{\CurveCurrCoordVec}{\CurrCoordVec{\CurveRef}} \newcommand{\SpaceDual}[1]{\SpaceLinear{#1}^*} CUBIT provides parallel meshing algorithms for both tet and hex meshing. \newcommand{\StrainShearCompXY}{\StrainShearComp_{\SpatialCoordX\SpatialCoordY}} \newcommand{\SpacePolyDef}[3]{\SpacePoly{#1}\left(#2 ; #3\right)} \newcommand{\Chebfun}[3]{\biggl(\, \sum_{#2=0}^{#1}{#3}_{#2}\ChebyshevBasisFuncNoArg{#2}\biggr)} All rights reserved. \newcommand{\SubmeshGrevillePointSetElement}[1]{\Set{\SymbolSubmeshModifier{GE}}_{#1}} \newcommand{\RegionAtZeroDistance}{\gamma} \newcommand{\SubmeshGrevillePointSet}{\Set{\SymbolSubmeshModifier{G}}} \newcommand{\CoeffGapContactMortar}{\GapContact^{m}_{\UsplineBasisFuncId}} \newcommand{\KthLeibnizFracSpecificFunction}[3]{\frac{d^{#2}}{d#3^{#2}}\Func[#1]} \newcommand{\YieldSurfaceNormalComp}{\SymbolYieldSurfaceNormal} \newcommand{\StressCauchyResultantForceDetailed}[1]{F_{#1}} \newcommand{\UsplineDegree}{q} \newcommand{\DartIndex}[1]{\operatorname*{\mathsf{ID}}\left(#1\right)} \newcommand{\TracForceCurrCompX}{\TracForceCurrComp_{\SpatialCoordX}} \newcommand{\RotMatDelta}{\boldsymbol{\Lambda}_\Delta} Here are three ways to mesh this simple CAD model (download the CAD geometry here: simple.sat). \newcommand{\IntervalOpen}[2]{\left(#1, #2\right)} \newcommand{\EnergyConstraintOverVolumeRefGDef}{\FuncDef{\EnergyConstraintG}{\DispTrialSpaceOverVolumeRefG}{\Reals}} \newcommand{\VarDesign}{\Vec{\phi}} \newcommand{\ElementWiseLessOrEqual}{\preceq} \newcommand{\LeviCivita}{\Mat{\epsilon}} \newcommand{\Normal}[1]{\operatorname{N}{\left(#1\right)}} \newcommand{\EquationMatMatMultiply}{\Mat{M}\Mat{N} = \newcommand{\SymbolManifoldCoeffBernsteinUpper}{X} \newcommand{\CovariantBasisVolVec}{\Vec{\SymbolCovariantBasisVol}} \newcommand{\StressCauchyResultantMomentDetailed}[1]{M_{#1}} \newcommand{\SurfaceWildCard}{\Surface^{\SymbolWildCard}} \newcommand{\SpatialCoord}{\SymbolSpatialCoord} \newcommand{\SegmentOfVolumeEnvCurrS}{\Segment{\VolumeEnvCurrS}} \newcommand{\NullVectorSetOnBdryOfNullVector}[2]{\QuantityFunctionOf{\boldsymbol{\textsf{BD}}_{#1}}{#2}} \newcommand{\VolumeEnvCurrCoordVec}{\CurrCoordVec{\VolumeEnvCurr}} \newcommand{\DispTrialSpaceOverVolumeRefG}{\SpaceHilbert{U}(\VolumeRefClosureG)} \newcommand{\RefMidContra}[1]{\MidGeometryModifier{\Vec{G}}^{#1}} \newcommand{\SpaceHilbertN}[1]{\SpaceHilbert{#1}^h} \newcommand{\BernsteinBasisFuncIdAlt}{\BasisFuncIdAlt} \newcommand{\ManifoldBezier}{\ManifoldRelatedTo{\MeshBezier}} \newcommand{\SubscriptedQuantityFunctionOfChildOf}[4]{{#1}_{#2}^{#3}(#4)} \newcommand{\StiffnessMatB}{\Mat{T}} The next CUBIT 100 and 200 training is scheduled on May 8-10, 2023. \newcommand{\CellBeta}{\CellArbitrary{b}} \newcommand{\PointCADModified}{\PointRelatedTo{\SymbolCADModified}} \newcommand{\FlexImmersed}{\Flex{\infty}} \newcommand{\StretchTen}{\Mat{V}} \newcommand{\VolumeEnvCurrGMap}{\ManifoldMap{\ParamDomainEnvG}{\VolumeEnvCurrG}} It contains CUBIT as the core, but has some additional value-added capabilities for the retail market. \newcommand{\StiffnessMaterialMat}{\StiffnessMat^{m}} \newcommand{\BernsteinBasisFuncCoeffsSet}{\QuantityRelatedTo{\boldsymbol{\Set{\SymbolArbitraryCoeffBernstein}}}{\MeshBezier}} \newcommand{\ManifoldBezierMapDef}{\ManifoldMapDef{\ParamDomainOnMeshBezier}{\Manifold}} Changing Rounding for Items in Cubit Estimating. \newcommand{\NormalConvexHull}[1]{\Normal{\ConvexHull{#1}}} \newcommand{\UsplineNullVectorSetOfIndexSets}{\boldsymbol{\textsf{UI}}} \newcommand{\ParamCoordVec}[1]{\QCO{#1}{\Vec{\ParamCoordSimple}}} \newcommand{\RaySkeleton}[1]{\operatorname{skel}(#1)} \newcommand{\BernFuncInterf}[1]{\BernFuncLowerDimCell{\Interface}{#1}} \newcommand{\TracForceOverSurfaceRefTracTenDef}{\FuncDef{\TracForceRefTen}{\SurfaceRefTrac}{\SpatialDomain}} \newcommand{\EulerRotVec}{\boldsymbol{\theta}} \newcommand{\EnergyDensityStrainVol}{\SymbolEnergyDensityStrainVol} \newcommand{\SymbolBasisUspline}{N} \newcommand{\StressCauchyNormalXX}{\StressCauchyComp_{\SpatialCoordX\SpatialCoordX}} \newcommand{\BernsteinDegreeInSRight}{\QuantityChildOf{\CellToTheRight}{\BernsteinDegreeInS}} \newcommand{\ModuliElastRefVoigt}{\tilde{\ModuliElastRefTen}} \newcommand{\RibbonIsTruncated}{\Set{trunc}} \newcommand{\VolumeEnvRefCoordVec}{\RefCoordVec{\VolumeEnvRef}} \newcommand{\DartsOf}[1]{\operatorname*{\mathsf{D}}\left(#1\right)} Performing your estimating and takeoff is simple with Cubit. \newcommand{\VolumeCurrClosure}{\overline{\VolumeCurr}} \newcommand{\DeformGradSTen}{\DeformGradTen^s} \newcommand{\GateauxDerivWithDirection}[3]{D#1\left(#2 \ ;\ #3\right)} \newcommand{\overbar}[1]{\mkern 1.5mu\overline{\mkern-1.5mu#1\mkern-1.5mu}\mkern 1.5mu} In the Select PDF pages window, select the pages of the plan that you would like to insert into Cubit Estimating. \newcommand{\ParamDomainBdryDisp}{\ParamDomainBdry^{\SymbolDisp}} \newcommand{\StressPKTwoComp}{S} \newcommand{\RefConfigMidBound}{\Gamma_0^m} \newcommand{\CurMidCovar}[1]{\MidGeometryModifier{\Vec{g}}_{#1}} \newcommand{\MassMoment}{\Vec{m}^{\rho}} \newcommand{\SurfaceDeformTracMap}{\ManifoldMap{\SurfaceRefTrac}{\SurfaceCurrTrac}} \newcommand{\AABBCornerUpper}{\Vec{c}^u} \newcommand{\SubmeshParallelProjection}[1]{\Projection^{\parallel}_{#1}} \newcommand{\dCurve}{\Differential[\Curve]} Learn how to takeoff architraves for doors and windows in Cubit with this short tutorial. \newcommand{\DeformCauchyGreenLeftDevTenDef}{\DeformCauchyGreenLeftDevTen \DefEq \DeformGradDet^{-\frac{2}{3}} \DeformCauchyGreenLeftTen} \newcommand{\ParamCoordSimple}{s} \newcommand{\TracForceOverSurfaceRefTracGTenDef}{\FuncDef{\TracForceRefGTen}{\SurfaceRefTracG}{\SpatialDomain}} \newcommand{\ManifoldCADMapModified}{\ManifoldMap{\ParamDomainOnCADModified}{\Manifold}} \newcommand{\CurModuli}{\Mat{c}} \newcommand{\EnergyEnvG}{\EnergyEnv^\alpha} \newcommand{\ManifoldPartitionMapDef}{\ManifoldMapDef{\ParamDomainOnPartition}{\Manifold}} \newcommand{\VolumeRefCoord}{\RefCoord{\VolumeRef}} \newcommand{\SpaceSobolevKDef}[3]{\SpaceSobolevK{#1}\left(#2 ; #3\right)} Part 14 Geometry Cleanup for Contiguous Assembly Meshing, Part 20 Improving the Quality of Existing Hex Meshes. \newcommand{\EnergyElasticNoArg}{\QFONA{\Energy}} \newcommand{\BStrainMatrix}[2]{\Mat{B}_{#1#2}} \newcommand{\ParamLengthInS}{\ParamLength_{0}} \newcommand{\SymbolForce}{F} \newcommand{\ForceConstraintVec}{\ForceVec^{\lambda2}} \newcommand{\DispFieldMidCurrCompX}{\overline{\DispFieldCurrComp}_{\SpatialCoordX}} \newcommand{\ConstraintRefTen}{\Vec{\SymbolConstraintUpper}} \newcommand{\ParaParam}[1]{\xi_{#1}} \newcommand{\ParamDetJacobianS}{j^s} \newcommand{\UnitNormalRefComp}{N} \newcommand{\IntForce}{\Vec{f}^{\, int}} Coreform CUBIT is a commercial branding of the CUBIT software. \newcommand{\ManifoldMap}[2]{\QuantityRelatedTo{#2}{#1}} \newcommand{\ClosestPointMapCADModified}{\ClosestPointMap{\SymbolCADModified}} \newcommand{\VolumeCurrClosureSMap}{\ManifoldMap{\ParamDomainClosureS}{\VolumeCurrClosureS}} When encountered the name "Trelis" is functionally equivalent to "Coreform Cubit" or "Cubit" or "CUBIT". \newcommand{\RefConfig}{\Omega_0} \newcommand{\dVolumeRef}{\Differential[\VolumeRef]} \newcommand{\ImageSlaveBound}{\bar{\ParamCoordVecSimple}^{\ParamDomainBdryContactM}} \newcommand{\SetRoster}[1]{\left\{ #1 \right\}} \newcommand{\SubmeshPerpEquivalence}[1]{\varpi^{\perp}_{#1}} \newcommand{\VecChildOf}[2]{\QCO{#2}{#1}} \newcommand{\SetRosterIndexed}[3]{\SetRoster{#1}_{#2}^{#3}} \newcommand{\NullSpaceVectorFormFunctionOf}[1]{\QuantityFunctionOf{\NullSpaceVectorForm}{#1}} \newcommand{\SymbolOutside}{\circ} \newcommand{\ParentDomainChart}{\SymbolParentModifier{\Vec{\phi}}} \newcommand{\PartitionTessellationMap}[2]{\QuantityRelatedTo{#2}{#1}} \newcommand{\Constraint}{R} \newcommand{\BaseModifier}[1]{{#1}_{\BaseSymbol}} \newcommand{\DimId}{k} \newcommand{\SuperscriptrhkP}{\UClassIrregular\UClassContInfinity\UClassLocalSmoothness\UClassGlobalDegree} \newcommand{\QFONA}[1]{\QuantityFunctionOfNoArg{#1}} Known Issues: A listing of known issues in Coreform Cubit. \newcommand{\Trial}{{\rm trial}} \newcommand{\RayHead}{\Edge^{h}} \newcommand{\ParamDomainBdryTangentTen}{\Mat{\ParamDomainBdryTangentComp}} \newcommand{\SymbolDispUpper}{U} \newcommand{\SurfaceEnvRef}{\Set{\SymbolEnvModifier{\SymbolSurfaceRef}}} \newcommand{\FuncIndex}{\operatorname*{\mathsf{ID}}} \newcommand{\SurfaceRef}{\Set{\SymbolSurfaceRef}} Buildsoft Training \newcommand{\ElemKPlusOneCellPairPerp}[1]{\QuantityFunctionOf{\Set{\SpokeSymbol}^\perp}{#1}} \newcommand{\SymmProdInProjTan}{C} \newcommand{\UnitNormalCurrMComp}{\UnitNormalCurrComp^m} 9.2 Providing the user with smart options. \newcommand{\ManifoldCoeffSetUspline}{\QuantityRelatedTo{\Set{\SymbolManifoldCoeffUspline}}{\MeshUspline}} \newcommand{\LaminaSymbolUpper}{L} \newcommand{\ManifoldUsplineMapDef}{\ManifoldMapDef{\ParamDomainOnMeshUspline}{\Manifold}} \newcommand{\CurveRefMap}{\ManifoldMap{\ParamDomain}{\CurveRef}} \newcommand{\ConstraintCoeff}{r} \newcommand{\ForceExternalVec}{\ForceVec^{ext}} \newcommand{\VolumeRefMMap}{\ManifoldMap{\ParamDomainM}{\VolumeRefM}} \newcommand{\SurfaceCurrContactSMapDef}{\ManifoldMapDef{\ParamDomainBdryContactS}{\SurfaceCurrContactS}} \newcommand{\AND}{\operatorname{AND}} \newcommand{\RibbonTailId}{j} \newcommand{\ConstraintOverSurfaceRefDispTenDef}{\FuncDef{\ConstraintRefTen}{\SurfaceRefDisp}{\SpatialDomain}} \newcommand{\SymbolStrainDisp}{B} \newcommand{\DeformGradGTen}{\DeformGradTen^\alpha} \newcommand{\DBParamWeight}{\omega} \newcommand{\SymbolParamModifier}[1]{\hat{#1}} \newcommand{\UsplineClassRHkp}{\UsplineClass{\SuperscriptRHkp}} \newcommand{\RefConfigSec}{\Omega_0^s} \newcommand{\SymbolSpatialDim}{n} \newcommand{\ParamDomainEnvGCoord}{\ParamCoordSimple^{\ParamDomainEnvG}} \newcommand{\CurConfigDirichMidBound}{\Gamma^g} \newcommand{\SymbolCurveCurr}{\SymbolCurve} \newcommand{\VolumeCurrClosureM}{\VolumeCurrClosure^m} \newcommand{\ManifoldCoeffUpper}{\SymbolManifoldCoeffUpper} The decomposition tutorial provides several examples (including sample data) that you can use to become familiar with these tools. \newcommand{\SymbolArbitraryCoeffUspline}{c} \newcommand{\RibbonStartingBernIndex}{\RibbonAlgBernIndexVariable_{\RibbonHead}} \newcommand{\NRing}[1]{\QuantitySubscriptedBy{\operatorname{ring}}{#1}} \newcommand{\ErrorApproxComp}{e} Bloc State Management Library Instruction will also focus on basic techniques for preparing CAD models for automatic tetrahedral and hexahedral meshing methods. \newcommand{\RaySmoothness}[2]{\Smoothness_{#1}^{#2}} \newcommand{\SuperscriptrHkP}{\UClassIrregular\UClassContFinite\UClassLocalSmoothness\UClassGlobalDegree} \newcommand{\OR}{\operatorname{OR}} \newcommand{\UsplineBasisFuncIdVec}{\Vec{A}} \newcommand{\StrainPlasticEquiv}{\SymbolStrainPlasticEquiv} \newcommand{\ParentCoordVec}{\Vec{\ParentCoord}} Most are applicable to CUBIT. \newcommand{\Valence}{k} \newcommand{\SymbolArbitraryCoeffBernstein}{c} \newcommand{\FlexSpectrum}{\overleftrightarrow{\mathcal{F}}} Conference: Proposed for presentation at the Cubit tutorials and cubit website held December 10, 2013 - December 10, 2014 in Albuquerque, NM. Perform your estimating and takeoff in one seamless process. \newcommand{\SegmentSet}{\SymbolSegmentSet} \newcommand{\RibbonAlgBernIndexVariable}{\BernsteinBasisFuncIdSet} \newcommand{\Functional}[1]{\LinearOperator{#1}} \newcommand{\TensorProduct}{\otimes} \newcommand{\UsplineClassRhKp}{\UsplineClass{\SuperscriptRhKp}} \newcommand{\BernToChebMat}{\Mat{T}} The SDK provides the ability to customize the CUBIT GUI and to program custom commands to add to the CUBIT application. We offer three training options for schools and districts: On-site: Intensive, half-day session that allows educators to learn alongside their peers. PDF Getting Started with - Buildsoft \newcommand{\CurMeas}{g} \newcommand{\SuperscriptRHKp}{\UClassRegular\UClassContFinite\UClassGlobalSmoothness\UClassLocalDegree} \newcommand{\IntervalClosedOpen}[2]{\left[#1, #2\right)} \newcommand{\StressCauchyTractionVec}{\Vec{t}} \newcommand{\StressCauchyShearXY}{\StressCauchyShear_{\SpatialCoordX\SpatialCoordY}} \newcommand{\ConstraintRefGTen}{\ConstraintRefTen^\alpha} \newcommand{\RibbonDegreeTransition}{\Set{dr}} \newcommand{\RayTailVertexMaxContinuity}[1]{\Smoothness_{#1}^{\max}} \newcommand{\VolumeRefGMap}{\ManifoldMap{\ParamDomainG}{\VolumeRefG}} \newcommand{\Rank}[1]{\operatorname{rank}(#1)} \newcommand{\TracForceCurrComp}{\SymbolTracForce} \newcommand{\CurConfigBound}{\Gamma} Python-Cubit enhancement scripts are now distributed with CUBIT for powerful ID-less geometry and meshing operations. \newcommand{\SurfaceCurrDisp}{\SurfaceCurr^{\SymbolDisp}} \newcommand{\IdentityTenSym}{\mathbb{I}} \newcommand{\CurveMesh}{\CurveRelatedTo{\Partition}} Sandia National Lab employees can register via TEDS. \newcommand{\BernsteinBasisFuncVecFunctionOf}[2]{\QuantityFunctionOf{\BernsteinBasisFuncVec{#1}}{#2}} Learn more about how to perform other tasks in Cubit by watching our other videos in this series, and don't forget to subscribe. \newcommand{\DispTrialSpaceOverCurveRef}{\SpaceHilbert{U}(\CurveRef)} \newcommand{\ExtraDeformTen}{\Delta\DeformGradTen} \newcommand{\ExtractionOp}[1]{\QuantityChildOf{#1}{\Mat{C}}} \newcommand{\SurfaceCurrContactGMap}{\ManifoldMap{\ParamDomainBdryContactG}{\SurfaceCurrContactG}} \newcommand{\StrainGreenLagrangeOverVolumeEnvRefTenDef}{\FuncDef{\StrainGreenLagrangeTen}{\VolumeEnvRef}{\VolumeEnvCurr}} \newcommand{\SymbolSurface}{s} \newcommand{\SymbolCurveUpper}{C} We've designed a guide to get you taking off and estimating straight away, whether you're using it as a go to guide or a how to instruction. \newcommand{\BodyForceOverCurveCurrCompDef}{\BodyForceCurrComp \DefEq \BodyForceRefComp \circ \Inverse{\CurveDeformMap}} \newcommand{\BasisVecI}{\Vec{i}} \newcommand{\AlignmentSetOfSetsLeftThreeD}{\SubmeshGrevillePointSetSetLeft{}_{\Interface, \ii}^{\parallel}} 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{\SymbolCurvCoordIdTwo}{\beta} \newcommand{\VolumeEnvCurrGMapDef}{\ManifoldMapDef{\ParamDomainEnvG}{\VolumeEnvCurrG}} \newcommand{\DispFieldCurrCompY}{\DispFieldCurrComp_{\SpatialCoordY}} \newcommand{\BodyForceRefTen}{\Vec{\BodyForceRefComp}} \newcommand{\InclDistFunctionOf}[1]{\QuantityFunctionOf{\InclDist}{#1}}%changed from mathsf \newcommand{\CurConfigMid}{\Omega^m} CUBIT is used free of cost in a wide range of applications for US government purposes by many government agencies, contractors, and subcontractors. \newcommand{\StressKirchhoffComp}{\tau} \newcommand{\DeformGradMDet}{\Det{\DeformGradMTen}} \newcommand{\LeverArm}{\Vec{\SymbolLeverArm}} \newcommand{\NullVectorSetFunctionOf}[1]{\QuantityFunctionOf{\NullVectorSet}{#1}}%changed from mathsf