Automate your Actran Simulations using the API (Scripts & Sessions)

Performing Fatigue Analysis Using Adams and MSC Fatigue (Session II)

The Importance of Nonlinear Analysis

Linear analysis of structures is the most commonly performed type of finite element analysis, primarily due to its simplicity and ease of set up. However, nature is inherently nonlinear and the linear approximations may lead to inaccurate, over-designs and/or unsafe designs. It is important to understand the sources of nonlinearities and their effect on your designs during their lifetime, so that you can design products for performance and durability. With the help of appropriate nonlinear simulation solutions, users can simulate product behaviors accurately, reducing the probability of unwanted failures and warranty costs, while saving on material costs.

Characterization of Elastomers

Actran R13.0 Release Highlights

This webinar provides an overview of the release highlights of Actran R13.0. The new release offers improved performance, several ease of use features and multiple new capabilities. Some of the new capabilities include support for new boundary conditions and elements, ability to directly listen to the computed sound pressure levels and other post-processing enhancements. Users can also translate the information from Nastran input files into equivalent Actran data blocks and map CFD results that are either periodic in space or symmetric.

Optimizing to Account for Multiple, Related Designs in MSC Nastran

Intake & Exhaust Systems: How to use Actran for predicting the pipe noise & shell noise