A new technique from Purdue University is designed to improve missiles, engines and drinking glasses made from ceramic materials. (Stock photo) Something as simple as an electric field could soon make ...

In steelmaking, two desirable qualities -- strength and ductility -- tend to be at odds: stronger steel is less ductile, and more ductile steel is not as strong. Engineers have now shown that ...

The KAIST research team led by Professor Seungchul Lee from the Department of Mechanical Engineering, in collaboration with ...

The alloy, developed by German researchers, has a rare combination of ductility at room temperature and oxidation resistance at temperatures up to 1100 °C, important qualities for durable materials in ...

In a landmark advancement for structural materials engineering, researchers have developed a novel heterostructured titanium matrix composite that demonstrates exceptional mechanical performance from ...

A team of scientists from Ames National Laboratory and Texas A&M University developed a new way to predict metal ductility. This quantum-mechanics-based approach fills a need for an inexpensive, ...

Although steel has been the workhorse of the automotive industry since the 1920s, the share by weight of steel and iron in an average light vehicle is now gradually decreasing, from 68.1 per cent in ...

Researchers combine many elemental metals to create a class of material known as enduring high-entropy alloys (HEAs). Applications involving high stress, harsh temperatures, radiation, and wear and ...

Researchers have developed a new process to help overcome the brittle nature of ceramics and make it more ductile and durable. The team calls the process 'flash sintering,' which adds an electric ...

A new chromium-molybdenum-silicon alloy has overcome a decades-old trade-off between strength and stability. The alloy, developed by German researchers, has a rare combination of ductility at room ...