Advances in High-Purity Alumina and Resource Distribution

Min Xian Du; Ke Liang Chen; Yong Gang Xiong

doi:10.4028/www.scientific.net/AMR.926-930.36

Paper Titles

Optimal Number of Contact Angle Measurements on Pyrite Surface
p.17

Characterization of Mg_xZn_1-xO Films Grown by Electrochemical Deposition
p.22

A Fuzzy Recognition of early Crack of Metal Deep Drawing Stamping Based on the Fuzzy Clustering
p.26

A Novel Zeolite-Containing Composite Material Synthesized via In Situ Crystallization
p.32

Advances in High-Purity Alumina and Resource Distribution
p.36

Alignment of Electrospun Nanofibers on Folding Foil
p.40

Analysis and Design of Anti-Penetration Property of Ceramic/Metal Composite Target Plate
p.44

Analysis of Double Hybrid Medium Absorbing Microwave Performance
p.48

Analysis of Friction Vibration in Sliding Model of Double Rough Surfaces
p.52

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 926-930Advances in High-Purity Alumina and Resource...

Advances in High-Purity Alumina and Resource Distribution

Abstract:

High-purity alumina has excellent performance and wide application in high-tech industries and areas of modern materials, so industrialized, low-cost, non-polluting and sustainable development preparation process has become one of the priorities of present high-purity alumina powder research. The use of high purity alumina and its major domestic craft preparation methods are described in the paper.

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Periodical:

Advanced Materials Research (Volumes 926-930)

Pages:

36-39

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.926-930.36

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Online since:

May 2014

Authors:

Min Xian Du, Ke Liang Chen, Yong Gang Xiong*

Keywords:

High-Purity Alumina, Preparation Method, Pyrolysis of Ammonium Aluminum Sulfate

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* - Corresponding Author

References

[1] Chen JianLiang, Sun Jialin, Shi An. High-pure alumina preparation techniques and production status [J], Kunming University of Technology Journal (Science and Technology Version), 2003. 28 (3): 22- 24.

Google Scholar

[2] Yangzhao Min, Yang Su. Some non-metallurgical purposes of Alumina and bauxite [J], the world's non-ferrous metals, 2002. 11: 47-48-58.

Google Scholar

[3] Yang Jiguang, Ma Lijuan, Ma Quanshan, etc. Preparation and development of fine ceramics [J]. Foshan ceramics, 2002. 6 (64): 30 -35.

Google Scholar

[4] Li Quan, Jiang Guangming. Introduction of Japan fluorescent powder coating material [J]. Lamps and lighting, 1997, 02: 21 -23.

Google Scholar

[5] Su Jin. Applications of transparent sintered alumina [J]. China Nonferrous Metals News, 2005. 7. 30 (005).

Google Scholar

[6] Zhang Yonggang, Yan Pei. Pore structure of activated alumina carrier [J]. Industrial Catalysis, 2000, 06: 14 -18.

Google Scholar

[7] Hen Derbao, Guan Delin, Song Xigeng. Effect of adding lubricants on nano alumina liner-piston ring friction and tribological characteristics [J]. Mechanical Engineering Materials, 2006, 03: 44 -47.

Google Scholar

[8] W.M. Rainforth, The sliding wear of ceramics, Ceram. Int. 22 (1996)：365–372.

Google Scholar

[9] Liu Jie. Preparation method and characteristics overview of sapphire crystal [J]. Metallurgical Engineering, 2011, 05: 102 -106.

Google Scholar

[10] Ren Yuerong, Zhu Zikang, Xu Duanlian, etc. Research on thermal decomposition of ammonium aluminum sulfate for preparation of high purity alumina [J]. Mineral industry, 1991, 6: 21-25.

Google Scholar

[11] Yang Hongju, Zhao Qingfa, Tang Haihong. Preparation of high purity alumina powder [J]. Nonferrous metal smelting, 2002 (6): 63- 196.

Google Scholar

[12] Koichi Hayashi, et a1．Transmission Optical Propefities of Polycrystalline Alumina with Submicron Grains. Material：Transactions[J]．JIM, 1991, 32(J1)：1024-1029.

DOI: 10.2320/matertrans1989.32.1024

Google Scholar

[13] Liu Jianliang, Sun Jialin, Shi An, Hu Jin, Lv Xianyong, Zheng Fuqian. The latest research progress of high-purity ultrafine alumina powder preparation method [J]. Kunming University of Science Journal (Science and Technology Version), 2003, 03: 22 -24.

Google Scholar

[14] Chen Zhong, Yang Songqing, Jiang HanYing. Preparation of high-purity alumina by sol-ultrafine method [J]. Mineral Salt Industry, 1997, 04: 12 -14 +3.

Google Scholar

[15] Ji Huiming, Wu Ping, Zhang Zhou, Xu Mingxia. Preparation of high purity alumina by fly ash nanopowders [J]. Geology Frontiers, 2005, 01: 220 -224.

Google Scholar

[16] Liu Yuehui, Su Xuejun, Chen Kai. Preparetion of Ultrafine Alumina Powders by spray pyrolysis method [J]. Chinese ceramics, 1996. 32 (4): 7 -10.

Google Scholar

[17] Lin Yuanhua, Zhang Zhongtai, Huang Chuanyong, Tang Zilong, Chen Qingming. Preparetion of High-purity Ultrafine Alumina Powders by Precursor Pyrolysis Method [J]. Ceramic Society, 2000, 03: 268 -271.

Google Scholar