Two-dimensional (2D) materials possess extraordinary properties. They usually consist of atomic layers that are only a few nanometers thick and are particularly good at conducting heat and electri .
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Three researchers from Missouri University of Science and Technology are part of a nationwide collaboration to synthesize inexpensive materials hard enough to literally stir two pieces of steel together and create some of the hardest materials ever produced.
With funding from a five-year, $7.5 million grant through the U.S. Department of Defense’s Multidisciplinary University Research Initiative (MURI) competition, the researchers will also develop a suite of artificial intelligence-materials tools capable of designing similar materials on demand with properties tailored to a wide range of applications.
Researchers at Duke University’s Center for Autonomous Materials Design are leading the project. In addition to the Missouri S&T team, the project includes researchers from Pennsylvania State University, North Carolina State University and State University of New York at Buffalo.
Duke, NC State researchers working on material to 'revolutionize' metalwork bizjournals.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from bizjournals.com Daily Mail and Mail on Sunday newspapers.
Strengthened by Chaos, New Super-Hard Materials Will Stir Steel Together
A nationwide collaboration led by researchers at Duke University’s Center for Autonomous Materials Design is working to synthesize inexpensive materials hard enough to literally stir two pieces of steel together with little wear and tear.
Funded by a five-year, $7.5 million grant through the Department of Defense’s Multidisciplinary University Research Initiative (MURI) competition, the team will also develop a suite of AI-materials tools capable of the on-demand designing of similar materials with properties tailored to a wide range of applications.
The class of so-called “high-entropy” materials derives enhanced stability from a chaotic mixture of atoms rather than relying solely on the orderly atomic structure of conventional materials. After first demonstrating this approach with carbides in 2018, the researchers will now look to add borides into the irregular self-organized structures to produce
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IMAGE: A Tetris-like grid of high-entropy carbides (blue) and borides (red) is expected to produce super-hard materials that can literally stir two pieces of steel together. view more
Credit: Duke University
A nationwide collaboration led by researchers at Duke University s Center for Autonomous Materials Design is working to synthesize inexpensive materials hard enough to literally stir two pieces of steel together with little wear and tear.
Funded by a five-year, $7.5 million grant through the Department of Defense s Multidisciplinary University Research Initiative (MURI) competition, the team will also develop a suite of AI-materials tools capable of the on-demand designing of similar materials with properties tailored to a wide range of applications.