期刊
MATERIALS RESEARCH EXPRESS
卷 8, 期 5, 页码 -出版社
IOP PUBLISHING LTD
DOI: 10.1088/2053-1591/abdf12
关键词
purification; vacuum distillation; magnesium metal; evaporation rate; mean free path; high purity magnesium; vacuum metallurgy
资金
- National Natural Science Foundation of China [51604133]
- Academician Free Exploration Fund of Yunnan Province, China [2020HA006]
This study investigated the distribution and evaporation principles of impurities in distilled magnesium metal through experiments and theoretical analysis, determining that distillation at 750 degrees C is optimal for obtaining high-purity Mg (99.99%). The study confirmed significant reductions in various impurities, such as Fe, Si, and Mn, through the distillation process, meeting the required purity standard.
In this study, the distribution and evaporation principles of impurities in distilled magnesium metal were investigated using a low vacuum (8 x 10(4) Pa) distillation purification experiment and theoretical analysis. Provided all other factors remain unchanged (distillation time, pressure, and total area of evaporation), the optimum temperature for preparing high-purity Mg (99.99%) is 750 degrees C. A detailed analysis of purified Mg was obtained by inductively coupled plasma mass spectrometer (ICP-MS) for 10 major impurity elements. After distillation at 750 degrees C, low vapor pressure impurities in condensed magnesium, including Si, Mn, Al, Fe, Cu, Ni, and Sn were significantly reduced as other impurities were slightly reduced. Our analysis confirmed a decrease in the following impurities: Fe, Si, Mn, Cu, and Al were reduced from 21.8, 78.6, 68.4, 4.4, and 39.4 ppm to 1.2, 9.3, 6.0, 1.0, and 5.4 ppm, respectively; satisfying the 99.99% Mg standard. The evaporation rate and separation coefficient were calculated under experimental conditions. To better describe the distillation process of metallic magnesium under low vacuum conditions, the mean free path is also calculated in this study under actual conditions.
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