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

Internal damage in fiber-reinforced composites, materials used in structures of modern airplanes and automobiles, is difficult to detect and nearly impossible to repair by conventional methods. A ...

The “DNA” of Faserinstitut Bremen e.V.’s (FIBRE) research is materials testing. At its ECOMAT site, much of its composites research is focused on aerospace and/or sustainability, including work in ...

Fiber-reinforced composite wing components, commonly stacked with aluminum and titanium, can challenge the machining process, including cutting tool security and final surface quality. Source (All ...

Lightweight, high-strength polymer composites are essential to modern engineering. Yet their manufacturing remains complex, slow, and often reliant on manual adjustments. In a forward-looking analysis ...

A team of U.S. engineers has developed a fiber composite material that can heal internal damage more than 1,000 times, ...

Dental composite materials, widely utilised for restorative treatments, consist primarily of a polymer resin matrix reinforced with inorganic fillers. The mechanical properties – including flexural ...

As aerospace continues its pursuit of higher performance, lower weight, and improved lifecycle efficiency, metal-to composite component conversion is a key enabler of innovation. Whether in commercial ...

Once confined to the aerospace and automotive industries, composite materials have taken on an increasingly central role in contemporary architecture. By combining two or more components, such as ...