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.

The MarketWatch News Department was not involved in the creation of this content. Pioneering the Future of Sustainable Flight Training with Advanced Carbon Fiber Innovation DENVER, Dec. 2, 2025 ...

In a significant milestone for the aerospace industry, Mikrosam has successfully commissioned a Robotic Automated Fibre Placement (AFP) work cell at Qarbon Aerospace, Inc. This innovative system is ...

A collaborative research initiative in Europe is seeking to use digital twin processes to manage the entire life-cycle of next-generation aircraft composite structures. The project aims to provide ...

The project aims to extend the useful life of composite materials and contribute to the aviation industry’s Net Zero goals by developing remanufacturing processes and creating a closed-loop recycling ...

The Boeing 767 only stayed in commercial passenger production for around 32 years, but remains in production as a freighter ...

Composites, a manufacturer of composite structures, has secured its first production contract in the commercial aircraft seating and cabin interiors supply chain. The initial production batch will sup ...

Composites, a specialist manufacturer of advanced composite structures, has secured its first production contract in the ...

Pioneering the Future of Sustainable Flight Training with Advanced Carbon Fiber Innovation DENVER, Dec. 2, 2025 /PRNewswire/ -- Bye Aerospace, Inc., a global leader in electric aviation, announced a ...