Australian scientists have developed a new type of titanium alloy using 3D printing

According to Xinhua News Agency, Sydney, June 11 (Reporter Hao Yalin), scientists from University of Sydney, Australia, Royal Melbourne University of Technology and other institutions have developed a new type of titanium alloy through unique alloy design and 3D printing technology. The new research provides a feasible method for more sustainable manufacturing of high-performance titanium alloys, which can be widely used in aerospace, biomedical, Chemical engineering, national defense, clean energy and other fields

According to Xinhua News Agency, Sydney, June 11 (Reporter Hao Yalin), scientists from University of Sydney, Australia, Royal Melbourne University of Technology and other institutions have developed a new type of titanium alloy through unique alloy design and 3D printing technology. The new research provides a feasible method for more sustainable manufacturing of high-performance titanium alloys, which can be widely used in aerospace, biomedical, Chemical engineering, national defense, clean energy and other fields.

In order to overcome the limitations of traditional processes for producing titanium oxide iron alloys, the team designed a unique alloy microstructure and utilized a 3D printing process called laser directed energy deposition to prepare a new type of titanium oxide iron alloy using metal powders and other raw materials. The relevant paper has been published in the UK journal Nature.

Researchers have stated that the embrittlement effect caused by oxygen is one of the main challenges in the metallurgical field, and the new research provides reference for improving the embrittlement problem caused by oxygen through 3D printing and microstructure design.

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