Given the urgent need for improved fuel economy in the transportation sector, there has been a renewed interest in titanium as a structural material. The fact that titanium is lightweight and ...

Apparently, folks in the material science world are totally over the fact that we're able to 3D print titanium alloys willy-nilly. Because they have exceptional strength-to-weight ratios, corrosion ...

A study team led by Norihiko Okamoto and Tetsu Ichitsubo from Tohoku University’s Institute for Materials study (IMR) discovered that a brittle omega phase can emerge under certain conditions, making ...

Engineers at Monash University have developed a new 3D-printable titanium alloy with a unique microstructure that makes it ultra-strong. Not only is it stronger than most other forms of titanium, but ...

Titanium is strong and light, with the highest strength-to-weight ratio of any metal. But giving it a good balance of strength and ductility is difficult and expensive. That’s why titanium is used ...

Figure 7 - Drill Core Sample DHTI-0004 (0-3.9m) Showing Clay-Hosted Mineralization with 3m @ 9,028 ppm TREO, 2,393 ppm MREO, 9.7% TiO 2 Average TREO grades by block demonstrate consistent ...

Engineers from RMIT University, Australia, 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 ...

Schematic illustration showing how the EWF (an athermal effect) induced by HDPEC drives atomic motion and triggers phase transformation and microstructural refinement within an extremely short time, ...