Making fan blades for airplanes used to be pretty straightforward, but now it’s a whole different ballgame. We’re talking ...

Discover insights from open keynote speaker Dr. Bill Carter of Boeing and award keynote speaker Delphine Turpin of Joby ...

Researchers have created a self-healing composite that is tougher than materials currently used in aircraft wings, turbine blades and other applications—and can repair itself more than 1,000 times.

Loop Technology US is strategically positioned in Seattle to provide the US market with access to its automated composite ...

Composites are integral to lightweight, high-strength structures—but manufacturing them is traditionally slow, manual, and fragmented. Saeki breaks this bottleneck with a unique full-stack approach, ...

Continuous Composites’ CF3D fuses continuous-fibre steering, instant UV curing and an automated, anisotropy-aware design workflow into a full-stack platform. The result: near-net composite components ...

Sheergard Utah brings sandwich radome manufacturing in-house, combining engineering, tooling, and production expertise ...

Every step of the composites manufacturing process requires energy. Energy to produce the fiber, energy to design and energy to manufacture the final part. There is also a fair amount of energy ...

Polymer matrix composites (PMCs) are made by reinforcing a polymer-based matrix with glass, carbon, or aramid fibers. PMCs are classified into thermosetting and thermoplastic resins based on the type ...