EFFECT OF Ce ON MICROSTRUCTURE AND PROPERTIES OF HOT DIP ALUMINIZED TRITIUM PERMEATION BARRIER

doi:10.3724/SP.J.1037.2011.00368

Acta Metall Sin

2011, Vol. 47

Issue (12): 1527-1534 DOI: 10.3724/SP.J.1037.2011.00368

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EFFECT OF Ce ON MICROSTRUCTURE AND PROPERTIES OF HOT DIP ALUMINIZED TRITIUM PERMEATION BARRIER

ZHANG Hui, ZHOU Huan, LI Ning, LIU Lin

State Key Lab for Materials Processing and Die & Mould Technology, Huazhong University of Science and Technology, Wuhan 430074

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ZHANG Hui ZHOU Huan LI Ning LIU Lin. EFFECT OF Ce ON MICROSTRUCTURE AND PROPERTIES OF HOT DIP ALUMINIZED TRITIUM PERMEATION BARRIER. Acta Metall Sin, 2011, 47(12): 1527-1534.

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Abstract The gradient tritium permeation barrier was fabricated on CLAM steel substrate by hot dip aluminizing (HDA) and subsequent high–temperature diffusion treatment. The effect of Ce element on the microstructure and properties were investigated systematically. The Fe–Al layer with larger thickness and conspicuous serrated interface bonding with the substrate was achieved and the bonding strength of the coating was improved when the content of Ce increase. The gradient distribution of aluminized coating from surface to inter was obtained after thermal diffusion at 850 ℃for 4 h, the gradient coating reduces the thermal stress effectively. The result of the coating properties indicates that the thermal shock resistance and oxidation resistance at high temperature of the coating were also improved with the addition of Ce element.

Key words: tritium permeation barrier microstructure property

Received: 15 June 2011

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Supported by International Thermonuclear Experimental Reactor Project of China (No.2010GB109000)

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https://www.ams.org.cn/EN/10.3724/SP.J.1037.2011.00368 OR https://www.ams.org.cn/EN/Y2011/V47/I12/1527

[1] Smith D L, Konys J, Muroga T. Nucl Mater, 2002; 307: 1314

[2] Smith D L, Park J H, Lyublinski I. Fusion Eng Des, 2002; 61: 629

[3] Aiello A, Ciampichetti A, Benamati G. Nucl Mater, 2004; 329: 1398

[4] Causey R A, Wampler W R. Nucl Mater, 1995; 220: 823

[5] Shan C Q, Wu A J, Li Y J. Nucl Mater, 1992; 191: 221

[6] Liu H B, Tao J, Zhang P Z, Xu J. Mater Rev, 2006; 20(9): 47

(刘红兵, 陶杰, 张平则, 徐江. 材料导报, 2006; 20(9): 47)

[7] Huang Q Y, Li C J, Li Y F, Liu S J, Song Y. Atomic Energy Sci Technol, 2007; 41(supp.): 397

(黄群英, 李春京, 李艳芬, 刘少军, 宋勇. 原子能科学技术, 2007; 41(增刊): 397)

[8] Choy K L. Prog Mater Sci, 2003; 48: 57

[9] Hao J K, Shan C Q, Jin Z J, Chen Q W. Nucl Fusion Plasma Phys, 1996; 16(2): 62

(郝嘉馄, 山常起, 金柱京, 陈庆旺. 核聚变与等离子体物理, 1996; 16(2): 62)

[10] Perujo A, Serra E. Nucl Mater, 1996; 233: 1102

[11] Chen H, Sang G. Corros Sci Prot Technol, 2010; 31(4): 268

(陈镐, 桑革. 腐蚀与防护, 2010; 31(4): 268)

[12] Sun W C. The Behavior of Rare Earth in Aluminium Alloy. Beijing: Chemical Industry Press, 1992: 28

(孙伟成. 稀土在铝合金中的行为. 北京: 化学工业出版社, 1992: 28)

[13] Bahadur A, Mohanty O N. Trans JIM, 1991; 32: 1053

[14] Zhang W, Wen J B, Zhang J M, Fan Z K. Chin Rare Earths, 2005; 26(6): 29

(张伟, 文九巴, 张金民, 范志康. 稀土, 2005; 26(6): 29)

[15] Li C P, Liu X Z, Tian J F, Gao Y Y. Acta Metall Sin, 1989; 25: A382

(李翠屏, 刘兴志, 田继丰, 高允彦. 金属学报, 1989; 25: A382)

[16] Larikov L N. Protect Coatings Met, 1971; 3: 66

[17] Li M S. High Temperature of Metals. Beijing: Metallurgical Industry Press, 2001: 187

(李美栓. 金属的高温腐蚀. 北京: 冶金工业出版社, 2001: 187)

[18] Zhang W, Fan Z K, Guo X J, Wen J B, Zhang J M. J Aeronaut Mater, 2006; 26(2): 16

(张伟, 范志康, 郭献军, 文九巴, 张金民. 航空材料学报, 2006; 26(2): 16)

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