The strongest Cu-Ta-Li alloy developed to date exhibits outstanding strength and stability, making it ideal for advanced ...

Fault zones are often wide, branching networks rather than narrow lines, requiring a shift to 3D models for better earthquake ...

A new copper alloy, a Cu-3Ta-0.5Li nanocrystalline alloy, exhibits remarkable resistance to coarsening and creep deformation, even at temperatures near its melting point. The orange-colored ...

At the Seismological Society of America's Annual Meeting, researchers posed a seemingly simple question: how wide are faults?

The research team’s findings on the new copper alloy, published in prestigious journal Science, introduce a novel bulk Cu-3Ta-0.5Li nanocrystalline alloy that exhibits remarkable resistance to ...

Using data compiled from single earthquakes across the world, Christie Rowe of the Nevada Seismological Laboratory at the University of Nevada, Reno and Alex Hatem of the U.S. Geological Survey sought ...

Scientists at Caltech are using AI to translate what frequent, small earthquakes can tell us about what’s happening below the ...

Study shows Chinese scientists have cracked 'impossible triangle' of metal materials to combine strength, plasticity and ...

Chinese researchers have transformed common stainless steel into an alloy up to 10,000 times more resistant to metal fatigue, ...