用硫化化学方法从天然黑钨矿和白钨矿生产金属钨和碳化钨

IF 2.4 2区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Charles Boury, Sierra R. Green, Antoine Allanore
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引用次数: 0

摘要

近十年来,硫化物基化学和物理分离技术的发展为工业规模生产金属开辟了新的途径。提出了一条以天然黑钨矿(Fe,Mn) wo4和白钨矿cawo4为原料制备金属钨和碳化钨颗粒的新途径。矿物精矿的硫化作用将钨酸盐晶体结构分解成硫化物混合物,特别是二硫化钨ws2。WS 2在高温下的热不稳定性使得它在1500℃左右的温度下可以选择性地热还原成钨颗粒。在碳存在的情况下,类似的热还原会产生碳化钨,WC和w2c,在1250°C左右得到。在上述条件下,硫化精矿的其他主要组分仍未还原,表明选择性还原ws2可能是回收W的新途径。ws2的渗碳也有类似的发现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Production of Metallic Tungsten and Tungsten Carbide from Natural Wolframite and Scheelite via Sulfide Chemistry
Abstract The development of sulfide-based chemistry and physical separation in the last decade opens new processes to produce metals at the industrial scale. Herein, a new route to produce metallic tungsten and tungsten carbides particles from natural wolframite (Fe,Mn)WO 4 and scheelite CaWO 4 is presented. Sulfidation of mineral concentrates breaks the tungstate crystal structure into a mix of sulfides, in particular tungsten disulfide WS 2 . The thermal instability of WS 2 at high temperature allows for its subsequent, selective, thermal reduction to tungsten particles at around 1500 °C. Similar thermal reduction in the presence of carbon result in the production of tungsten carbides, WC and W 2 C, obtained at around 1250 °C. The other major components of the sulfidized concentrate remain un-reduced under the proposed conditions, demonstrating selective reduction of WS 2 as a possible new route for W recovery. Similar findings are reported for the carburization of WS 2 .
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来源期刊
CiteScore
4.90
自引率
20.00%
发文量
293
审稿时长
4.7 months
期刊介绍: Focused on process metallurgy and materials processing science, Metallurgical and Materials Transactions B contains only original, critically reviewed research on primary manufacturing processes, from extractive metallurgy to the making of a shape. A joint publication of ASM International and TMS (The Minerals, Metals and Materials Society), Metallurgical and Materials Transactions B publishes contributions bimonthly on the theoretical and engineering aspects of the processing of metals and other materials, including studies of electro- and physical chemistry, mass transport, modeling and related computer applications. Articles cover extractive and process metallurgy, pyrometallurgy, hydrometallurgy, electrometallurgy, transport phenomena, process control, physical chemistry, solidification, mechanical working, solid state reactions, composite materials, materials processing and the environment.
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