Study on reduction of MoS2 powders with activated carbon to produce Mo2C under vacuum conditions
来源期刊:International Journal of Minerals Metallurgy and Materials2018年第4期
论文作者:Guo-hua Zhang He-qiang Chang Lu Wang Kuo-chih Chou
文章页码:405 - 412
摘 要:A method of preparing Mo2C via vacuum carbothermic reduction of MoS2 in the temperature range of 1350–1550°C was proposed. The effects of MoS2-to-C molar ratio(a, a = 1:1, 1:1.5, and 1:2.5) and reaction temperature(1350 to 1550°C) on the reaction were studied in detail. The phase transition, morphological evolution, and residual sulfur content of the products were analyzed by X-ray diffraction, field-emission scanning electron microscopy, and carbon–sulfur analysis, respectively. The results showed that the complete decomposition of MoS2 under vacuum is difficult, whereas activated carbon can react with MoS2 under vacuum to generate Mo2C. Meanwhile, higher temperatures and the addition of more carbon accelerated the rate of carbothermic reduction reaction and further decreased the residual sulfur content. From the experimental results, the optimum molar ratio α was concluded to be 1:1.5.
Guo-hua Zhang,He-qiang Chang,Lu Wang,Kuo-chih Chou
State Key Laboratory of Advanced Metallurgy, University of Science and Technology Beijing
摘 要:A method of preparing Mo2C via vacuum carbothermic reduction of MoS2 in the temperature range of 1350–1550°C was proposed. The effects of MoS2-to-C molar ratio(a, a = 1:1, 1:1.5, and 1:2.5) and reaction temperature(1350 to 1550°C) on the reaction were studied in detail. The phase transition, morphological evolution, and residual sulfur content of the products were analyzed by X-ray diffraction, field-emission scanning electron microscopy, and carbon–sulfur analysis, respectively. The results showed that the complete decomposition of MoS2 under vacuum is difficult, whereas activated carbon can react with MoS2 under vacuum to generate Mo2C. Meanwhile, higher temperatures and the addition of more carbon accelerated the rate of carbothermic reduction reaction and further decreased the residual sulfur content. From the experimental results, the optimum molar ratio α was concluded to be 1:1.5.
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