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 ...

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% TiO2 To view an enhanced version of ...

Metals such as titanium are prized for their strength, light weight, and resistance to corrosion, making them essential for aircraft, spacecraft, and medical implants. Now, a joint research team has ...

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 ...

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 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 ...