A NIMS research team fabricated heat-resistant steel test specimens using laser powder bed fusion (LPBF)—a form of metal 3D printing—and subjected them to creep testing for up to 10,000 hours.

The team leveraged AI-driven models to map out previously unexplored manufacturing conditions for laser powder bed fusion, a method of 3D-printing metal. The results challenge long-held assumptions ...

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

Customized 3D-printed medical implants are becoming more common, and a new study has taken this technology to the next level.

The latest report from AMPOWER shows that growth is resuming in the AM field thanks to interest from the Defense sector.

Explore the innovative world of multi-metal 3D printing and its industrial applications driven by AMCM and Schaeffler ...

The study focused on improving the strength and consistency of cobalt-chromium-molybdenum (CoCrMo) alloy implants made using laser powder bed fusion (LPBF), a 3D printing process. The team ...

Learn how the new EOS nickel-based materials like EOS NickelAlloy IN718 API and EOS Nickel NiCP elevate industrial 3D ...

Using AI-driven models, researchers have identified new processing techniques that can improve the speed of production and strength of high-performance titanium alloy parts.

The study focused on improving the strength and consistency of cobalt-chromium-molybdenum (CoCrMo) alloy implants made using laser powder bed fusion (LPBF), a 3D printing process. The team ...