Nagoya researchers 3D print high-performance aluminum parts, with one variant staying both strong and flexible at 300°C.

The team has designed a series of heat-resistant, high-strength aluminum alloys using laser-based 3D manufacturing.

Additive manufacturing leaders are focusing defense, helping the U.S. military move from 'futuristic visions' to ...

Rocket engineering is shifting from painstaking machining and welding to a world where engines and tanks emerge from printers ...

Researchers at Lawrence Livermore National Laboratory (LLNL) have optimized and 3D-printed helix structures as optical ...

In an evolving 3D industry demanding rapid colour printing with less waste, I'm a bit unsure about Anycubic's latest Kobra X ...

Aluminum is prized for being lightweight and strong, but at high temperatures it loses strength. This has limited its use in ...

Market Research Future forecasts 20% annual growth driven by tech advancements, sustainability, and adoption across aerospace ...

Three-Dimensional (3D) printers have opened the opportunity for individuals and organizations to go from concept creation to ...

Worcester Polytechnic Institute researchers 3D print scaffolds for blood vessels - enabling the production of custom heart ...

This is the first article in a two-part series exploring additive manufacturing. The Pentagon has poured unprecedented funds ...

Saab‘s innovation accelerates the development of attritable CCA (Collaborative Combat Systems) platforms through additive ...