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

“Our alloy design approach mimics the strengthening mechanisms found in Ni-based superalloys,” said Kiran Solanki, a professor at the School for Engineering of Matter, Transport and Energy at Arizona ...

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

By combining sustainability with cutting-edge microstructure engineering, they are paving the way for a new era of alloy design. More information: Shaolou Wei et al, Reactive vapor-phase ...

The new high-entropy alloy from POSTECH exhibits consistent mechanical behavior across -196 °C to 600 °C, paving the way for ...

Combining these fundamental experimental studies with thermodynamic modelling techniques and trials on more advanced alloy systems led to the development of a set of powder-processed high ...

Quasicrystals, once considered impossible, were found in a 3D-printed aluminum alloy – and they make it stronger. This could ...

“Our alloy design approach mimics the strengthening mechanisms found in Ni-based superalloys,” said Kiran Solanki, a professor at the Ira A. Fulton Schools of Engineering in the School for ...