Artificial intelligence has just helped push one of the world’s most familiar metals into unfamiliar territory. By teaming ...

Engineers have spent decades trying to build metals that do not snap, melt, or grind away under extreme conditions, and for a ...

Investigating ways to create high-performance steel, a research team used theoretical calculations on 120 combinations of 12 alloy elements, such as aluminum and titanium, with carbon and nitrogen, ...

At Nagoya University, researchers have tested heat-resistant and recyclable metal alloys for automotive and aerospace ...

Alloys are not just random combinations of elements; they are precisely engineered to enhance specific properties, such as strength, corrosion resistance, ductility, and conductivity. 1, 2 For example ...

MIT researchers have designed a printable aluminum alloy that’s five times stronger than cast aluminum and holds up at ...

Earth’s inner core has long challenged researchers because seismic waves do not move through it uniformly. Compressional ...

The unique properties of high-entropy alloys make them ideal for hydrogen storage, offering advantages in stability and performance over traditional materials.

Steels that contain specified amounts of alloying elements -- other than carbon and the commonly accepted amounts of manganese, copper, silicon, sulfur, and phosphorus -- are known as alloy steels.

Decarbonization of automobiles not only requires a shift from gasoline engines to electric motors, but also quality steel parts that help the motors run while lessening the weight of vehicles.