CAE Portfolio

FEMAP with NX Nastran
Velocity Series

Femap is recognized as the world’s leading CAD-independent Windows-native pre- and post-processor for advanced engineering finite element analysis (FEA). It provides engineers and analysts with an FEA modeling solution to handle even the most complex tasks easily, accurately and affordably. Femap has embodied the principles of power and simplicity for over 20 years and continues that focus today with a new Microsoft Officecompatible graphical user interface, which streamlines working processes and access to all Femap functionality. Femap is an advanced engineering analysis environment. It is cost effective, both CAD and solver neutral, and has become the world’s most popular engineering analysis environment for Nastran users. It is widely used by the world’s leading engineering organizations and consultants to model complex products, systems and processes, including satellites, aircraft, defense electronics, heavy construction equipment, lift cranes, marine vessels and process equipment. Femap is highly cost-effective, it is integrated and sold with NX Nastran. But more than this, being open to all solvers demonstrates the power and value of Femap as a core analysis tool.
 

NX Simulation.

With NX digital simulation, companies accurately model and analyze product performance characteristics without physical prototypes.NX product simulation applications include dynamic motion simulation, basic strength analysis, system-level performance evaluation and advanced response, durability, fluid flow and multi-physics engineering analysis, for robust simulation of functional performance. NX also manages CAE processes,workflows and data to deliver vital performance feedback where it is needed to improve the product. Simulation is frequently carried out by specialists downstream from product design, providing performance feedback too late in the overall process to impact the performance and quality of the final product.NX moves simulation forward in the development process with tools that designers can use to quickly evaluate performance against basic design criteria, without translating or re-creating design data. The result is fewer errors, fewer engineering changes and fewer product failures.