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Direct electrochemical reduction of titanium dioxide to titanium in molten calcium chloride

George Zheng Chen, Derek J. Fray () and Tom W. Farthing
Additional contact information
George Zheng Chen: University of Cambridge
Derek J. Fray: University of Cambridge

Nature, 2000, vol. 407, issue 6802, 361-364

Abstract: Abstract Many reactive metals are difficult to prepare in pure form without complicated and expensive procedures1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18. Although titanium has many desirable properties (it is light, strong and corrosion-resistant1), its use has been restricted because of its high processing cost. In the current pyrometallurgical process—the Kroll process4,5—the titanium minerals rutile and ilmenite are carbo-chlorinated to remove oxygen, iron and other impurities, producing a TiCl4 vapour. This is then reduced to titanium metal by magnesium metal; the by-product MgCl2 is removed by vacuum distillation. The prediction that this process would be replaced by an electrochemical route6,7,8,9,10 has not been fulfilled; attempts involving the electro-deposition of titanium from ionic solutions have been hampered by difficulties in eliminating the redox cycling of multivalent titanium ions and in handling very reactive dendritic products6,7,8,9,10. Here we report an electrochemical method for the direct reduction of solid TiO2, in which the oxygen is ionized, dissolved in a molten salt and discharged at the anode, leaving pure titanium at the cathode. The simplicity and rapidity of this process compared to conventional routes should result in reduced production costs and the approach should be applicable to a wide range of metal oxides.

Date: 2000
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Citations: View citations in EconPapers (4)

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DOI: 10.1038/35030069

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