A new study designed a copper-tantalum-based superalloy (with added lithium) that can operate up to 800 degrees Celsius (1472 degrees Fahrenheit). This nanoscale approach to building new superalloys ...

Researchers from the U.S. Army Research Laboratory (ARL) and Lehigh University have developed a nanostructured copper alloy ...

Researchers in the US have developed a new copper alloy that shows minimal loss of yield strength even at temperatures near ...

Researchers from the U.S. Army Research Laboratory (ARL) and Lehigh University have developed a groundbreaking nanostructured copper alloy that could redefine high-temperature materials for aerospace, ...

New solution: Feng Nei in the lab with his zinc alloy prototype. (Credit: Monash University) Orthopaedic implants that bear loads while bones heal, then disappear once they’re no longer needed, could ...

Currently, the price of magnesium metal has continued to pull back and is significantly lower than that of aluminum, making its cost-performance advantage reappear and its functional value prominent.

“Similarly, structural materials have a unique fingerprint when they are subjected to any event like radiation or heat. They ...

A team of researchers has developed a groundbreaking high-temperature copper alloy with exceptional thermal stability and mechanical strength. The research team's findings on the new copper alloy ...

Apple might go straight for the summit with its foldable phone, thanks to a super sleek titanium alloy chassis, high-density battery, and a crease-less display.