Effect of Segregation Purification Process on Content of Impurity Elements in High Purity Aluminum

Zhi Hong Jia; Ming Ze Ma; Liang Xu; Dao Cun Xie; Yu Tao Zhao

doi:10.4028/www.scientific.net/AMR.1061-1062.71

Paper Titles

Influence of Imidazoline Inhibitor on CO₂ Corrosion of N80 Steel in Annulus Zone of Pump Recovery Well
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Effect of Alternating Traveling Magnetic Field on the Removal of Inclusions from Aluminum Melt
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Effect of Atmosphere Proportion and Nitriding Time on Plasma Nitriding of Duplex Stainless Steel
p.61

Discussion on the Mechanism of Fe-Cr-Mo Electrodeposition
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Effect of Segregation Purification Process on Content of Impurity Elements in High Purity Aluminum
p.71

Effect of Mg Content on Phase Structure and Electrical Properties of (Ba_0.97Ca_0.03)(Ti_0.96_-xZr_0.04Mg_x)O₃ Ceramics
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Effects of Different Sintering Temperature on the Microstructure and Piezoelectric Properties of Pb(Nb_2/3Zn_1/3)_x(Zr₅₂Ti₄₈)_1-XO₃ Ceramics
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Fabrication of Pyrochlore Gd₂Zr₂O₇by High Temperature Solid State Reaction
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Improved Curie Temperature of Li-Doped Lead-Free (K,Na)NbO₃ Ceramics Analysis
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1061-1062Effect of Segregation Purification Process on...

Effect of Segregation Purification Process on Content of Impurity Elements in High Purity Aluminum

Abstract:

Because of high purity aluminum’s excellent performance in the electronics industry, it has become more and more popular. Aluminum purification technology is the key to the development of high-purity aluminum, in this paper, through self-purification equipment and directional solidification method to explore the effect of k₀ to the element purification rate during the produce of high-purity aluminum. Found that when k₀ is less than 1, the smaller the value is, the better the purification is.

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Periodical:

Advanced Materials Research (Volumes 1061-1062)

Pages:

71-75

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1061-1062.71

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Online since:

December 2014

Authors:

Zhi Hong Jia, Ming Ze Ma*, Liang Xu, Dao Cun Xie, Yu Tao Zhao

Keywords:

Directional Solidification, High Purity Aluminum, Segregation Purification

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References

[1] Z.T. Wang: Metal World Vol. 3(2004), p.33.

Google Scholar

[2] Z. Qu: The world's non-ferrous metals Vol. 5(1995), p.40.

Google Scholar

[3] Z.T. Wang: Metal World, Vol. 5(2004), p.33.

Google Scholar

[4] Z.X. Qiu: The principle and application of aluminum electrolytic (CUMPT Press, PRC 1998).

Google Scholar

[5] Shabestari S G, Gruzleski J E: Metallurgical and Materials Transactions A, Vol. 4(2005), p.999.

Google Scholar

[6] Hiromi Matsnbara, NorinisaLzawa, Masarn Nakanishi: Journal of Japan Institute of Light Metals, Vol. 2(1998), p.93.

Google Scholar

[7] Sumitomo Chemical Company Limited, Osaka, Japan: Method for producing high purity aluminum,. United States Patent 6l56092, published 5 December (2000).

Google Scholar

[8] Sumitomo Chemical Company limited Osaka Japan: Method for producing high purity aluminum, United States Patent 6156095, published 5 December (2000).

Google Scholar

[9] France Picheny Aluminum Company: The separation purification methods and equipment of aluminum, China Patent 00802569X, published 5 January (2000).

Google Scholar

[10] Hiroto Osono, Hiroshi Macta: Materials Transactions, Vol. 2(2002), p.121.

Google Scholar

[11] Y.Q. Su , J.Z. Guo: Special Casting And Nonferrous Alloys, Vol. 1(2006), p.25.

Google Scholar

[12] L.D. Lu: Non-ferrous metals, Vol. 3(1997), p.18.

Google Scholar

[13] H.Q. Hu: Metal solidification principle(MIP Press, PRC 2001).

Google Scholar