Assessment of the possibility of using leucoxene-quartz concentrate as raw material for production of aluminium and magnesium titanates

IF 2.4 Q2 MINING & MINERAL PROCESSING
E. Kuzin, I. Mokrushin, N. Kruchinina
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Abstract

Leucoxene-quartz concentrate is a large-tonnage by-product of development of the Timan oil-titanium field (oil-saturated sandstones) which is not commercially used at present. High content of titanium compounds (to 50 % by weight) and lack of industrial, cost-effective, and safe technologies for its processing determine a high relevance of the work. Conventional processing technologies allow increasing the concentration of TiO2, but they are only a preparation for complex and hazardous selective chlorination. The process of pyrometallurgical conversion of leucoxene-quartz concentrate into aluminium and magnesium titanates was investigated. It was ascertained that the temperature of solid-phase reaction in Al2O3-TiO2-SiO2 system necessary for the synthesis of aluminium titanate (Al2TiO5) is 1,558 °С, and for MgO-TiO2-SiO2 system – 1,372 °С. Scaling up the process made it possible to synthesize a significant number of samples of titanate-containing products, the phase composition of which was studied by X-ray phase analysis. Two main phases were identified in the products: 30 % aluminium/magnesium titanate and 40 % silicon dioxide. In products of pyrometallurgical processing in the presence of aluminium, phases of pseudobrookite (3.5 %) and titanite (0.5 %) were also found. It was ascertained that in magnesium-containing system the formation of three magnesium titanates is possible: MgTiO3 – 25, Mg2TiO4 – 35, MgTi2O5 – 40 %. Experiments on sulphuric acid leaching of samples demonstrated a higher degree of titanium compounds extraction during sulphuric acid processing. An integrated conceptual scheme for processing leucoxene-quartz concentrate to produce a wide range of potential products (coagulants, catalysts, materials for ceramic industry) was proposed.
以亮色英-石英精矿为原料生产钛酸铝、钛酸镁的可能性评价
亮绿英-石英精矿是提曼油-钛油田(含油砂岩)开发的大吨位副产物,目前尚未商品化。钛化合物的高含量(占重量的50%)和缺乏工业、成本效益和安全的加工技术决定了这项工作的高度相关性。传统的处理技术可以增加TiO2的浓度,但它们只是为复杂和危险的选择性氯化做准备。研究了辉绿石英精矿火法转化钛酸铝、钛酸镁的工艺。确定了合成钛酸铝(Al2TiO5)所需的固相反应温度为1558°С,合成MgO-TiO2-SiO2体系所需的固相反应温度为1372°С。扩大工艺规模可以合成大量的含钛酸盐产品样品,并通过x射线相分析研究了其相组成。在产品中确定了两种主要相:30%钛酸铝/镁和40%二氧化硅。在有铝存在的火法冶炼产品中,还发现了假绿铜矿(3.5%)和钛矿(0.5%)相。确定了在含镁体系中可以形成三种钛酸镁:MgTiO3 - 25、Mg2TiO4 - 35、MgTi2O5 - 40%。对样品的硫酸浸出实验表明,在硫酸处理过程中,钛化合物的提取率较高。提出了一种综合处理二苯二烯-石英精矿的概念方案,以生产广泛的潜在产品(混凝剂、催化剂、陶瓷工业材料)。
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来源期刊
Journal of Mining Institute
Journal of Mining Institute MINING & MINERAL PROCESSING-
CiteScore
7.50
自引率
25.00%
发文量
62
审稿时长
8 weeks
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