Composite structures, comprising two or more distinct materials, are increasingly pivotal in modern engineering due to their superior strength‐to‐weight ratios and enhanced durability compared with ...

WEST LAFAYETTE, Ind. — A new artificial intelligence platform has been launched to help users more quickly develop composite materials and structures without requiring in-depth technical jargon or ...

Explore the future of sustainable composites in architecture, from bio-based and recycled materials to hybrid solutions.

WEST LAFAYETTE, Ind. and NORTH LOGAN, Utah - Manufacturers and engineering firms in the advanced composites sector can now use new software developed at Purdue University to reduce the design cycle of ...

E-Xstream is the leader in advanced materials simulation used across industries to engineer innovative material systems and enable their optimal use to boost product performance. Its holistic offering ...

iSurface, a project led by Munro Technology, Z Prime, Axalp Technologies AG and researchers from Swiss university of applied sciences FHNW (Fachhochschule Nordwestschweiz), unveiled a new intelligent ...

When it comes to designing the moving structural elements of high-performance machine tools—such as beams, shafts and spindles, and the assemblies used to hold cutting tools—the need for the machine ...

The Clean Aviation HERWINGT project is developing a novel, ultra-high performance wing for a hybrid-electric regional aircraft, including thermoplastic composites (TPC) and morphing composite wing ...

FlexHyJoin demonstrates a mass production process for producing a thermoplastic composite roof stiffener with welded metal brackets for assembly into a metal body-in-white, like that of the project’s ...

Wenbin Yu, Purdue University researcher and AnalySwift chief technology officer, led a project to launch CompositesAI. The platform leverages AI so users can design and analyze composite materials and ...