A Johns Hopkins research team is using AI to enhance titanium alloys, improving strength and production speed for applications from deep-sea exploration to space travel. Manufacturing high-performance ...

A 3D printed ‘metamaterial’ boasting levels of strength for weight not normally seen in nature or manufacturing could change how we make everything from medical implants to aircraft or rocket parts.

Russell has a PhD in the history of medicine, violence, and colonialism. His research has explored topics including ethics, science governance, and medical involvement in violent contexts. Russell has ...

Titanium is fantastically expensive, and difficult to fabricate, relative to other materials—meaning it was only ever ...

A new type of 3D-printed lattice structure has surprised researchers with its strength and light weight. It uses two different lattice structures merged together to eliminate the weak points normally ...

Engineers from RMIT University have produced a new type of 3D-printed titanium that's about a third cheaper than commonly used titanium alloys. The team used readily available and cheaper alternative ...

At the heart of Peregrine Titanium is a front chassis forged from true aerospace-grade titanium—delivering exceptional durability, elegant strength, and corrosion resistance in a minimalist profile.

Apple is planning to use advanced liquid metal and improved titanium alloys for its first foldable iPhone, according to new ...

In a landmark advancement for structural materials engineering, researchers have developed a novel heterostructured titanium matrix composite that demonstrates exceptional mechanical performance from ...