Composite lattice structures have emerged as an indispensable solution in high‐performance engineering, particularly in aerospace and civil applications. These structures combine advanced composite ...

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 ...

Healable spacecraft structures could soon be possible thanks to cutting-edge composite technology. Swiss companies CompPair ...

ATK: Alliant Techsystems has delivered a technological first to NASA: a full-scale, crew module structure made of composite materials. The Composite Crew Module (CCM) is a unique capsule design that ...

In recent years, research interest in the 3D printing of metal patterns on plastic parts has grown exponentially, due to its high potential in the manufacturing of next-generation electronics. But ...

Automotive, aerospace and space applications combining each partner’s material technologies confirm healing value, compatibility and consistent performance.

Composite materials have revolu­tionised a wide range of industries, including aerospace and automotive, offering unrivalled strength, lightness and design flexibility compared to more conventional ...

Composite materials are redefining what is possible in space exploration. Their high strength, light weight and versatility make them indispensable in current and future space missions. NASA’s Artemis ...

Wabash National has been granted a patent for a composite structure that combines fiber-reinforced plastic with a wood layer featuring engagement features. A co-cure adhesive layer, containing ...

Aerospace engineers face constant trade-offs between weight and manufacturability. With HyperX® and HyperXpert® from Collier Aerospace, they can optimise lighter, more cost-effective composite ...