Generative Structural Analysis Applied for Design Optimisation

CATIA DASSAULT SYSTEMES QUICK TIPS SOFTWARE TRAINING & EDUCATION
Design optimisation is the process of finding the best design parameters that satisfy project requirements. Optimisation of parameters, whether “minimisation”, “maximisation” or “approaching a target value” is an iterative process. Using the conventional, manual approach can be time consuming and tedious.

Design optimisation is the process of finding the best design parameters that satisfy project requirements. Optimisation of parameters, whether “minimisation”, “maximisation” or “approaching a target value” is an iterative process. Using the conventional, manual approach can be time consuming and tedious.

In a previous post, only parameters and measures were used to perform the design optimisation. This time, the optimisation loop will include FEA (finite element analysis).

FEA is generally used to validate a design by simulating the loaded condition of a design in order to predict the stress, strain and displacement values. Iterations are needed to reach a target or to minimise a value. The CATIA Design optimisation module, “product engineering optimiser” is found within the “knowledgeware” module. It allows the user to deal with FEA analysis inside the optimiser tool in order to significantly reduce design time.

The following video shows how to use the optimiser module combined with the Generative Structural Analysis module.

Learn how to perform FEA with the Generative Structural Analysis module in CATIA V5 with our CATIA V5 Generative Structural Analysis Training Course.

Jeremy Boxberger
Application Engineer
Jeremy provides engineering software support to customers as they design, simulate and analyse their products using Dassault Systèmes PLM.