Improve Product Design by Simulating Complex Thermal and Structural Problems Before Prototyping
Finite Element Analysis (FEA) is the practical application of a mathematical method (FEM - Finite Element Method) to model complex Structural Analysis and thermal problems.
In very general terms, FEM is the method of subdividing complex geometry with unknown Structural Analysis behavior into a finite number of simple geometric elements with known Structural Analysis behavior, known as a FEM mesh. At the element boundaries, the displacements are equated with the neighboring elements and a matrix equation is developed. The equation is numerically solved, and you can see the results graphically using a post-processor. The results displayed show you the computed stresses, strains and displacement that occur in your model when forces are applied.
Typically, engineers use simulation software, such as Creo Simulate and its extensions, to perform various types of analysis; such as Structural Analysis, thermal, modal, buckling, and dynamic for both linear and non-linear problems. Basic simulation can and should be in the virtual toolkit of every engineer.
The computed FEA results allow you to optimize your designs, by making changes and then easily re-running the various analyses. Incorporating simulation early in the design process will help reduce the need for costly prototypes and late-stage design changes as well as improve product performance, longevity, and safety.