Researchers have uncovered a remarkable metal alloy that won t crack at extreme temperatures due to kinking, or bending, of crystals in the alloy at the atomic level. Unlike most materials, the new ...

A new material might contribute to a reduction of the fossil fuels consumed by aircraft engines and gas turbines in the ...

The impact on fuel consumption could be significant for aviation. Professor Heilmaier stated that raising the temperature in ...

A team at Lawrence Berkeley National Laboratory has now broken with tradition. They have discovered a way to produce ...

MIT engineers have developed a printable aluminum alloy that can withstand high temperatures and is five times stronger than ...

A multi-institutional team has discovered a way to create new alloys that could form the basis of next-generation semiconductors. A multi-institutional team led by the U.S. Department of Energy's ...

Scientists working with NASA and Ohio State University have created a new super alloy that is stronger and more durable than any current state-of-the-art 3D-printed alloy. The material, called GRX-180 ...

You may recall the old universal solvent problem: There’s an old problem in chemical solvents: a solvent that dissolves anything isn’t easy to bottle up. High-performance metallurgy faces a similar ...

It's not Wolverine's Adamantium, but it's pretty damn close. Scientists have just developed a new hyper-strong metal alloy that's perfect for biomedical implants. "It is about three to four times ...

They found that some iron alloys could form a superionic state, which would explain the observations. In a superionic iron alloy, the iron atoms form a solid lattice that holds the material in shape, ...

Chemical & Materials Engineering Assistant Professor Yufeng Zheng will begin research this August to design novel titanium alloys with both high strength and ductility (capability of materials to bend ...