羧基氯化 YOCl 合成 YCl3

Osamu Takeda, Xin Lu, Hongmin Zhu
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摘要

随着高质量钛(Ti)金属产量的大幅增加,低质量钛废料的产生量也随之增加,超过了目前黑色冶金行业级联回收的需求量。因此,需要开发一种升级回收技术,对废料进行提炼和再利用。目前,稀土金属氧氯化物的形成辅助镁(Mg)脱氧被认为是一种很有前景的升级回收技术,在此过程中会形成副产品 YOCl。在本研究中,我们研究了在 973 和 1073 K 下通过羧氯化反应从 YOCl 中合成和分离 YCl3 的过程,并证实 YCl3 可以从 YOCl 中以较高的转化率(最大转化率为 82.7%)再生。即使存在氯化镁,也能生成 YCl3;但氯化镁会降低转化率(最低为 49.8%)。YCl3 为液体的温度区域(1073 K)的转化率低于 YCl3 为固体的温度区域(973 K)。因此,在温度循环操作中,即在 YCl3 为固态的温度下形成 YCl3,然后将温度升高到 YCl3 为液态的温度,以排出熔融的混合盐,是有效的。
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Carbochlorination of YOCl for Synthesis of YCl3

As the production of high-quality titanium (Ti) metal increases significantly, the generation of low-quality Ti scraps increases and exceeds the demand for current cascade recycling in ferrous metallurgy. Therefore, the development of an upgrading recycling technology, in which scraps are refined and reutilized, is required. The magnesium (Mg) deoxidation assisted by the formation of oxychlorides of rare earth metals is currently considered a promising process for upgrading recycling technology, during which YOCl is formed as a byproduct. In this study, we investigate the synthesis and separation of YCl3 from YOCl via carbochlorination at 973 and 1073 K and confirmed that YCl3 can be regenerated from YOCl at a high conversion rate (82.7 pct at maximum). YCl3 was also formed even in the presence of MgCl2; however, MgCl2 decreased the conversion rate (49.8 pct at minimum). The conversion rate in the temperature region where YCl3 is a liquid (1073 K) was lower than that in the temperature region where YCl3 is a solid (973 K). Therefore, an operation with temperature cycling, in which YCl3 is formed at a temperature where YCl3 is a solid and then the temperature is increased to a temperature where YCl3 is a liquid to drain the molten mixed salt, is efficient.

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