研究了人工合成钙钛矿情况下钛原料的碳热分解方法

O. N. Budin, A. Kropachev, D. G. Agafonov, V. V. Сherepov
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引用次数: 1

摘要

本文阐述了碳热法分解钙钛矿精矿与湿法冶金法的优越性。对采用碳热法的论文进行了评述。本文提供了没有工业应用的现有钙钛矿加工方法的信息。给出了在CaO·TiO2人工合成钙钛矿的情况下,研究钛原料分解的结果。人工钙钛矿是在马弗炉中合成的,其中氧化物(CaO = 41,2 wt.%和TiO2 = 58,8 wt.%)的混合物预混15分钟,然后在147 МPa液压机上使用15 mm钢模具压块成球团。合成CaTiO3的温度为1300℃,保温时间为4小时。实验采用不同的碳过量(20和30 wt.%的含量的化学计量要求回收钙钛矿成分)进行。在带石墨加热器的真空炉中进行了人工钙钛矿(4 g球团)的碳热分解过程,分两个阶段进行:第一步在1500℃、保温时间1 h、残余压力10.1 kPa的氩气环境中进行,第二期在t = 1750℃、τ = 1 h、残余腔压1.3 Pa的条件下进行。用D8 Advance Bruker AXS衍射仪对反应产物进行了x射线衍射分析。实验结果证明了碳热法从钙钛矿中提取钛和钙的可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
STUDY INTO CARBOTHERMIC METHOD OF TITANIUM RAW MATERIAL DECOMPOSITION IN CASE OF ARTIFICIALLY SYNTHESIZED PEROVSKITE
The article states the advantages of carbothermic perovskite concentrate decomposition in comparison with hydrometallurgical methods. The papers using the carbothermic method are noted. The paper provides information on existing perovskite processing methods that found no industrial application. The results obtained when studying titanium raw material decomposition in case of CaO·TiO2 artificially synthesized perovskite are given. Artificial perovskite was synthesized in a muffle furnace where a mixture of oxides (CaO = 41,2 wt.% and TiO2 = 58,8 wt.%) was premixed for 15 minutes and then briquetted into pellets using a 15 mm steel mold on a 147 МPa hydraulic press. The temperature of CaTiO3 synthesis was 1300 °C with a holding time of 4 hours. Experiments with a different carbon excess (20 and 30 wt.% of the content stoichiometrically required to recover perovskite components) were carried out. The carbothermic process of artificial perovskite decomposition (4 g pellets) was carried out in a vacuum furnace with a graphite heater in two stages: at 1500 °C, 1 hour holding time and 10,1 kPa residual pressure in an argon atmosphere at the first stage, and at t = 1750 °C, τ = 1 h, 1,3 Pa residual chamber pressure at the second one. Reaction products were studied by X-ray diffraction analysis on the «D8 Advance Bruker AXS» diffractometer. Experimental results demonstrated the practical possibility of titanium and calcium extraction from perovskite using the carbothermic method.
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