The CompSTLar project is using laser-induced graphene (LIG) to create smart skins, combining data with simulations to enable virtual stress tests for in situ monitoring and prediction.

ProfileCHECK replaces manual wind blade inspections with precise, objective and fully traceable digital measurements.

Initiative focuses on the design, simulation and testing of a carbon fiber yacht mast, seeking to replace traditional ...

Cannon presents aerospace, defense and recycling-focused solutions like thermocompression lines, Nexus and the POSSIBLE ...

Industry is rapidly gaining maturity while benefiting from macro-trends in circularity, AI and TPC and high-rate ...

FRP with 3D printed agents and embedded heaters successfully self-repairs delamination, offering the potential for composite ...

UD continuous fiber tape wraps polyamide liners for robust H2 storage, achieving 2.2 GPa tensile strength, 20% savings and ...

Greene Tweed replaces metal stator vanes with DLF material co-molded with a metal leading edge that meets performance, cost ...

SNAPSHOT: MicroWire technology already proven in composites is now validated by U.K. National Physics Lab in ionizing ...

Six decades of composites expertise and an extensive, advanced integrated assembly line deliver center fuselages in 30 hours, ...

Australian fiberglass company doesn’t take shortcuts restoring a structure that has to handle harsh environments with zero ...

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