Aluminum is prized for being lightweight and strong, but at high temperatures it loses strength. This has limited its use in ...

Researchers at UMass Amherst and Georgia Tech have 3D printed a dual-phase, nanostructured high-entropy alloy that exceeds the strength and ductility of other state-of-the-art additively manufactured ...

The phrase alloy design refers to a knowledge-based method of developing and designing innovative metallurgical materials that are texturally responsive. On a daily basis, experts in the field of ...

An original class of strong, ductile titanium alloy containing the inexpensive and abundant oxygen and iron as principal alloying elements has been created using 3D printing. The research findings ...

A team of researchers from Xi’an Jiaotong University, Tianmushan Laboratory, and the National University of Singapore has pioneered a new method for crafting an ultra-strong, ductile alloy using 3D ...

Researchers have 3D printed a dual-phase, nanostructured high-entropy alloy that exceeds the strength and ductility of other state-of-the-art additively manufactured materials, which could lead to ...

Engineers at Monash University have developed a new 3D-printable titanium alloy with a unique microstructure that makes it ultra-strong. Not only is it stronger than most other forms of titanium, but ...

The ability to 3D print titanium-alloy objects certainly does open up some intriguing possibilities. That said, the finished items aren't always as strong as they could be. Now, new research suggests ...

In the last few decades, metal 3D printing has spearheaded the efforts in creating custom parts of intricate shapes and high functionality. But as additive manufacturers have included more alloys for ...

(Nanowerk News) A research led by scientists from City University of Hong Kong (CityU) has successfully developed a super-strong, highly ductile and super-light titanium-based alloy using additive ...