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

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

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.

Researchers created a fiber-reinforced composite that resisted delamination and repeatedly healed itself using heat-activated ...

Researchers have created a self-healing composite that is tougher than materials currently used in aircraft wings, turbine ...

To assess durability, the team built an automated system that repeatedly applied tensile force to a composite with a ...

New self-healing FRP composite repairs damage 1,000+ times and could extend aircraft and turbine lifespans to centuries.

The R&D Hub for Plastic Waste Processing of the Global Impact Coalition (GIC), led by TNO, brings together partners to ...

A newly designed self-healing composite material can repair itself over 1,000 times. Developed by ...

A tow spreading process has been developed by Kawabe of Fukui Technology Center. He blew air across a 12k or 24k tow to create thin plies down to 1/6 of the conventional 0.12mm (5 mil) ply thickness.

A thrilling race against time unfolds as the aviation industry seeks a fuel-efficient successor to the legendary Boeing ...