Electrochemical Synthesis Of Non-Oxide Ceramic Powders In A Eutectic Cacl2-Nacl Melt

A fused salt electrochemical process was investigated for the synthesis of non-oxide ceramic powders directly from metal oxides, boric oxide, and carbon powders by electro-deoxidation. Sintered pellets of the mixed powders were designed to act as a composite cathode in the electrolytic cell. Electrolysis was carried out in molten CaCl2-NaCl eutectic at 3.1 V and at 600-900 ºC under argon. The favoured cathodic reaction was the removal of the oxygen from the oxides to produce metal atoms that reacted with either the reduced boron atoms, forming a metal boride, or the carbon initially present in the sintered pellets to produce a metal carbide. The technical viability of the process was demonstrated by the electro-deoxidation of sintered pellets of TiO2/B2O3 and TiO2/C to produce TiB2 and TiC, respectively. Compared to existing carbothermic reduction process, this new electrochemical process may be less energy intensive and may lead to lower production costs. I