Altair highlights design simulation and optimization software
Altair is presenting its methods and solutions for design, optimization and simulation of composite structures and materials.
The ultra-lightweight seat from CSI Entwicklungstechnik, where advanced composites technology delivered 20% weight reduction, will be displayed on the Altair stand at JEC 2020.
Editor’s note: CompositesWorld received several new product and technology announcements ahead of JEC World 2020, which had been scheduled for March 3-5. Although that exhibition was postponed to May, CW is now publishing the announcements we received. This is one of them.
Global technology company Altair (Troy, Mich., U.S.) is presenting its methods and solutions for design, optimization and simulation of composite structures and materials.
The company is presenting its development and simulation-driven design processes and solutions, driving modern design and manufacturing of composites from capability to capacity, including on-site demonstrations and use-case examples, and a conference session featuring presentations from Altair experts and customers.
The Altair-hosted conference session, “A Complete Composites Simulation Workflow for all Industries,” features presentations from companies including Cikoni, ENGENUITY, GURIT, KTM Technologies GmbH and others, demonstrating how Altair helped them create innovative products and improve their development processes for composites. The session takes place March 3 from 1-3 p.m. in the Agora room.
The Altair booth will highlight a 3D-printed lattice top fairing of a MotoGP motorcycle by KTM Technologies, as well as demonstrations of the new capabilities for composite design utilizing Altair HyperWorks and more.
Breakthrough manufacturing process produces lightweight, affordable glass-reinforced PPS J-nose on the worlds largest commercial aircraft wing.
Biomimicry evolves into a systematic design process for optimizing efficient, lightweight structures.
Composite parts are formed in molds, also known as tools. Tools can be made from virtually any material. The material type, shape and complexity depend upon the part and length of production run. Here's a short summary of the issues involved in electing and making tools.