Process for preparing metallic titanium and titanium master alloy

Abstract

The invention relates to the non-ferrous metal metallurgy fused salt electrolysis field, a method mainly comprises the steps of: preparing titanium dioxide, titanium tetrachloride, titanium dichloride and fluotitanate as raw materials, electrolyzing one or a plurality of combinations of TiO2, TiC14 and the fluotitanate in an electrolysis bath, preparing metallic titanium or titanium-based master alloy through an electrolysis method or a thermal reduction-electrolysis combined method, performing the TiO2 and connecting direct current to deoxidize or adopting metal (or metallic compound) for heat reducing the TiO2 beforehand, preparing the metallic titanium which contains oxygen (O) with certain concentration, and then electrolyzing aluminium, alkali metal, alkaline earth, rare earth metal, metallic copper, metallic zinc or metallic lead to deoxidize finally in the electrolysis bath. The purpose of the method is to reduce the production cost of the metallic titanium, simplify the production procedures and lower the environmental pollution in the production process, especially the titanium dioxide taken as the raw materials, the production flow is shortened, the storage and the transportation are convenient, none chlorine gas takes part in the reaction, and green metallurgy of the metallic titanium can be realized.

Description

Methods for preparing titanium metal and titanium-based alloys Technical areas: The invention relates to the field of non-ferrous metal metallurgy molten salt electrolysis. The method uses mainly developed titanium dioxide, titanium tetrachloride, titanium dichloride and fluorotitanate as raw materials, and electrolyzes TiO2, TiCl4 and fluorotitanate in an electrolytic cell. One or more combinations to prepare metallic titanium or titanium-based master alloy; or use metal (or metal compound) to pre-thermally reduce TiO2 to prepare metallic titanium containing a certain concentration of oxygen (O), and then electrolyze in an aluminum electrolytic cell Perform final deoxygenation. Background technique: Titanium has the advantages of low density, high specific strength, oxidation resistance, fatigue resistance, corrosion resistance, etc. It is an excellent structural and functional material and enjoys the reputation of "all-round metal" and "rare giant heading into the 21st c...

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