Revision as of 23:18, 17 October 2017 edit 2603:3004:603:3100:bd73:b3cc:ad1e:8db8 (talk) →Uses of Simulation Modeling ← Previous edit		Revision as of 10:58, 23 October 2017 edit undo Kku (talk \| contribs) Extended confirmed users 121,757 edits No edit summary Next edit →
Line 20: # Use a 2D or [[3D CAD]] tool to develop a virtual model, also known as a digital prototype, to represent a design. # Generate a 2D or 3D mesh for analysis calculations. Automatic algorithms can create finite element meshes, or users can create structured meshes to maintain control over element quality. # Define [[finite element analysis]] data (loads, constraints, or materials) based on analysis type (thermal, structural, or fluid). Apply [[boundary conditions]] to the model to represent how the part will be restrained during use. # Perform finite element analysis, review results, and make engineering judgments based on results. ==Simulation Modeling Software Programs== * [[AnyLogic]] * [[Abaqus]] * [[ANSYS]] * [[Autodesk]] Simulation Mechanical * Autodesk Simulation CFD * Autodesk Inventor Professional * [[AutoForm]] * [[COMSOL]] * ~~[https://conself.com~~ CONSELF CFD on Cloud]<ref>{{Cite web\|title = CONSELF {{!}} Consulting by Yourself\|url = https://conself.com\|website = conself.com\|accessdate = 2015-12-11}}</ref> * ~~<span class="plainlinks">[http://www.featool.com~~ FEATool Multiphysics~~]</span>~~<ref>[http://www.featool.com FEATool Multiphysics homepage]</ref> * [[GoldSim]] Pro * Insightmaker<ref>https://insightmaker.com/</ref> * [[Matlab]] * [[Nastran]] * [[Nogrid]] points and Nogrid CAD Compass * [[Patran]] * Siemens NX CAE * [[SimScale]] * [[Solidworks]] Simulation * [[Simio]] ==See also==

Simulation modeling: Difference between revisions