高纯度铝制备技术与应用研究进展

Research Progress in Preparation Technology and Application of High Purity Aluminum

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摘要文章主要介绍了高纯度铝的定义、应用领域,以及生产高纯度铝的主要方法的工作原理和技术特点,包括三层液电解法和偏析法。通过对这两种工艺方法的基本原理进行了较为详细的描述和比较,对国内高纯度铝生产技术及应用现状进行了总结分析,对未来实现高纯铝高效环保生产进行了展望。 This article mainly introduces the definition and application fields of high-purity aluminum, as well as the working principles and technical characteristics of the main methods for producing high-purity aluminum, including the three-layer liquid electrolysis method and segregation method. By providing a detailed description and comparison of the basic principles of these two process methods, this paper summarizes and analyzes the production technology and application status of high-purity aluminum in China, and looks forward to achieving efficient and environmentally friendly production of high-purity aluminum in the future.

作者李寒蕾李永春史绍亮胡传彬郭佳文黄婷黄玉芳罗西园龙周国李一凡黄奎

机构地区广西职业师范学院广西广投正润新材料科技有限公司广西广投高纯铝科技有限公司中国科技开发院广西分院广西产研院新型功能材料研究所有限公司贺州科技信息网络中心

出处《大众科技》 2023年第7期77-80,29,共5页 Popular Science & Technology

基金南宁市新型功能材料技术创新中心能力建设(20221021)。

关键词高纯铝三层液电解法偏析法应用 high purity aluminum three-layer liquid electrolysis method segregation method application

分类号 TQ13 [化学工程—无机化工]

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参考文献7

1王祝堂.高纯铝的性能(上)[J].轻金属,2004(8):3-6. 被引量：5
2王祝堂.话说高纯铝(二)[J].金属世界,2004(4):36-37. 被引量：15
3王祝堂.世界高纯铝的生产、市场与应用[J].有色金属加工,2004,33(6):1-6. 被引量：8
4曹鹏.高纯铝制备方法对比分析[J].世界有色金属,2018,43(11):10-11. 被引量：8
5P.V. Suneesh,T.G. Satheesh Babu,T. Ramachandran.Electrodeposition of aluminium and aluminium-copper alloys from a room temperature ionic liquid electrolyte containing aluminium chloride and triethylamine hydrochloride[J].International Journal of Minerals,Metallurgy and Materials,2013,20(9):909-916. 被引量：10
6Semiramis Friedrich,Danilo Coladetti Curtolo,Bernd Friedrich.Effect of Process Parameter Variation on Purity during Rotary Fractional Crystallization of Aluminum[J].Open Journal of Metal,2017,7(2):25-38. 被引量：3
7王祝堂.话说高纯铝(三)[J].金属世界,2004(5):33-37. 被引量：11

二级参考文献35

1P. Lequeu, KP. Smith, and A. Danielou, Aluminum?copper-lithium alloy 2050 developed for medium to thick plate, J. Mater. Eng. Perform., 19(2010), No.6, p.84l.
2H. Kundar, Krishna, and K Srinivasan, Impact toughness of ternary AI-Zn-Mg alloys in as cast and homogenized con?dition measured in the temperature range 263-673 K, Bull. Mater. Sci., 23(2000), No.1, p. 35.
3S. Z. EI Abedin, E. M. Moustafa, R Hempelmann, H. Natter and F. Endres, Additive free electrodeposition of nanocrystalline aluminium in a water and air stable ionic liquid, Electrochem. Commun., 7(2005), No. 11, p.111l.
4L. Dubourg, H. Pelletier, D. Vaissiere, F. Hlawka, and A. Cornet, Mechanical characterisation of laser surface alloyed aluminium-copper systems, Wear, 253(2002), No. 9-10, p. 1077.
5Y. Zhao and T.J. VanderNoot, Electrodeposition of alu?minium from nonaqueous organic electrolytic systems and room temperature molten salts, Electrochim. Acta, 42(1997), No.1, p. 3.
6W. A. Badawy, B. A. Sabrah, and N. H. Y. Hilal, A new bath for the electrodeposition of aluminium: 1. Conductiv?ity measurements, J. Appl. Elecirochem., 16(1986), No.5, p. 707.
7L. Legrand, A. Tranchant, and R Messina, Aluminium behaviour and stability in AICI3/DMS02 electrolyte, Elec?trochim. Acta, 41(1996), No.17, p. 2715.
8L. Legrand, M. Heintz, A. Tranchant, and R Messina, Sulfone-based electrolytes for aluminum electrodeposition, Electrochim. Acta, 40(1995), No. 11, p. 1711.
9T. Jiang, M. J. Chollier Brym, G. Dub A. La- sia, and G. M. Brisard, Electrodeposition of aluminium from ionic liquids: Part II. Studies on the electrode?position of aluminum from aluminum chloride (AICb)?trimethylphenylammonium chloride (TMPAC) ionic liq- uids, Surf. Coat, Technol., 201(2006), No. 1-2, p. 10.
10L.X. Gao, L.N. Wang, T. Qi, Y.P. Li, J.L. Chu, andJ.K Qu, Electrodeposition of aluminum from AICI3/Et3NHCI ionic liquids, Acta Phys. Chim. Sin., 24(2008), No.6, p. 939.

共引文献41

1莫文彬,贾桂龙,黄奎,楼岳,伍志铭,吴剑.偏析法制备高纯铝研究进展[J].特种铸造及有色合金,2021,41(4):434-438. 被引量：2
2袁青香,田国才.二氯甲烷对三乙胺盐酸三氯化铝体系结构与性质影响的模拟研究[J].昆明理工大学学报（自然科学版）,2020(3):1-9.
3付光宗,杨丰帆,杨小红,廖克俊,刘高彬.超薄铝膜的制备与透光率的研究[J].中国机械工程,2005,16(z1):352-354. 被引量：1
4宁建文,党建平.铝电解精炼发展的综述[J].轻金属,2005(8):37-39. 被引量：1
5李慧琴,韩强,麻永林,邢淑清,江丽萍.高纯铝靶材再结晶规律的试验研究[J].轻合金加工技术,2011,39(3):49-52. 被引量：2
6朱庆丰,陈明华,班春燕,赵志浩,崔建忠.退火温度对高纯铝变形组织的影响[J].金属热处理,2011,36(6):111-114. 被引量：4
7王成军.浅析电解铝与高纯铝[J].新疆有色金属,2011,34(A02):89-90. 被引量：2
8宁建文,王皓.我国精铝的生产现状及发展趋势[J].轻金属,2012(1):3-6. 被引量：8
9兰文兰.综述原铝精炼提纯工艺技术[J].轻金属,2012(6):28-31. 被引量：9
10梁涛,鲁雯,李小兰,卢西敏,王荣芳.环形激光陀螺阴极的精密制造技术研究[J].科技创新导报,2013,10(18):4-5.

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2薛深壬,刘铭恩.侧壁定向凝固偏析法一次提纯工艺生产精铝产品实践[J].绿色矿冶,2023,39(3):40-44.
3陈越,冯绍棠,李玉章,谭国寅,李恒,汤皓元,张永平,雷华志,李雨耕.采用偏析定向法提纯锌的研究[J].金属加工（热加工）,2023(6):69-75.
4吴忠振.高离化磁控溅射技术与应用专辑序言[J].中国表面工程,2022,35(5).

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高纯度铝制备技术与应用研究进展

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