Magnetic materials have become indispensable to various technologies that support our modern society, such as data storage ...

High entropy alloys, with unique compositions, enhance material performance, making them crucial for high-stress applications in aerospace and power generation.

Researchers at Tohoku University have developed a titanium-aluminum (Ti-Al)-based superelastic alloy. This new material is ...

Researchers have unveiled a groundbreaking titanium-aluminum alloy that maintains superelasticity across an unprecedented ...

Strong, lightweight, superelastic, and able to function across a range of temperatures, this newly developed alloy could be a game-changer for space exploration and medical technology.

AI-driven research is making titanium 3D-printing faster, stronger, and more efficient, transforming aerospace and defense ...

A Johns Hopkins research team is using AI to enhance titanium alloys, improving strength and production speed for ...

Producing high-performance titanium alloy parts -- whether for spacecraft, submarines or medical devices -- has long been a slow, resource-intensive process. Even with advanced metal 3D-printing ...

The manufacturing of alloy rolls for flour mill machines involves a meticulous process combining advanced technology and ...

A Cornell-led collaboration devised a new method for designing metals and alloys that can withstand extreme impacts: ...