Something as simple as an electric field could soon make wartime missiles or drinking mugs easier to produce and more resilient for fracture. Items such as drinking mugs, missile heads, thermal ...

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, ...

To enable rapid prediction of intrinsic ductility across the W–Ti–V–Cr compositional space, we leverage recent developments in physically grounded ductility descriptors that reflect the underlying ...

Materials scientists have recently discovered a new mechanism to increase the strength and ductility of a high-entropy alloy, two properties which normally vary inversely with each other. The findings ...

Simultaneously enhancing strength and ductility of metals and alloys has been a tremendous challenge. Here, we investigate a CoCuFeNiPd high-entropy alloy (HEA), using a combination of Monte Carlo ...

New materials are still abundant in many research now, and a recent team of scientists created a 3D printed material that exceeds the most durable and ductile materials known to the world. A ...

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 ...

A team of scientists from Ames National Laboratory and Texas A&M University developed a new way to predict metal ductility. The team found that higher (increased) charge activity is responsible for ...

A research team co-led by materials scientists from City University of Hong Kong (CityU) has recently discovered a new mechanism to increase the strength and ductility of a high-entropy alloy, two ...