New Titanium Production Process via Molten Bi-Ti Alloy

Canadian Institute of Mining, Metallurgy and Petroleum

T. Uda Y. Kado S. Maruyama K. Tsuchihashi A. Kishimoto

Organization:: Canadian Institute of Mining, Metallurgy and Petroleum
Pages:: 6
File Size:: 2969 KB
Publication Date:: Jan 1, 2014

Abstract

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We recently proposed a continuous production process for titanium metal with some experimental results. In the process, titanium tetrachloride is reduced by Mg in the presences of Bi to form a Bi-Ti alloy at 900ºC. At this temperature, the obtained alloy is liquid and allows for the continuous removal of product and heat from the reaction vessel. The obtained Bi-Ti alloy was vacuum-distilled at 1000ºC for 24 hr, and 98 at % (92 wt %) titanium, which was easily crashed to powder, was obtained. Bi solvent was selected because of the highest titanium solubility at 900ºC and the moderate vapor pressure among the candidate metals (Bi, Sn, Pb, Zn, and Sb).

Citation

APA: T. Uda Y. Kado S. Maruyama K. Tsuchihashi A. Kishimoto (2014) New Titanium Production Process via Molten Bi-Ti Alloy

MLA: T. Uda Y. Kado S. Maruyama K. Tsuchihashi A. Kishimoto New Titanium Production Process via Molten Bi-Ti Alloy. Canadian Institute of Mining, Metallurgy and Petroleum, 2014.

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