Effect of grain size on energy deposition process in Ni metal during 1 MeV electron irradiation

Ma Guo-Liang; Li Xing-Ji; Liu Hai; Liu Chao-Ming; Yang Jian-Qun; He Shi-Yu

doi:10.7498/aps.62.091401

Abstract

The high performance nano-crystal Ni material was prepared by the pulse electrodeposition process; the intensity, composition and the microscopic structure of the nano-crystal Ni material were investigated by various measurements. In this paper, the 1 MeV electron was chosen as the irradiation source to investigate the energy loss of high energy electron in the nano-crystal Ni material and conventional bulk Ni material, and the energy deposition process during the electron irradiation was measured by the absorbed dose tablets. The results show that the grain size affects the energy loss process during the 1MeV electron irradiation seriously. The absorbed dose of 1 MeV electron in the nano-crystal Ni material is lower than that in the common Ni material with the same thickness, which indicates that the energy deposition of high energy electron in nano-crystal metal is lower than that in the conventional bulk metal, and the nano-crystal metal has an advantage of radiation resistance.

Keywords:

Authors and contacts

1.
School of Materials Science and Engineering, Harbin Institute of Technology, Harbin 150001, China
Funds: Project supported by the National Natural Science Foundation of China (Grant No. 11205038), and the China Postdoctoral Science Foundation (Grant No. 2012M510951).

References

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[15]	Yu J N 2007 Material Radiation Effects (Beijing: Chemical Industry Press) p7 (in Chinese) [郁金南 2007 材料辐照效应 (北京:化学工业出版社) 第7页]
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Cited By

[1]	Gleiter H 1989 Prog. Mater. Sci. 33 223
[2]	Gleiter H 1995 Nanostruct. Mater. 6 3
[3]	Gleiter H 2000 Acta. Mater. 48 1
[4]	Lee K Y, Lim J R, Rho H 2007 Appl. Phys. Lett. 91 201901
[5]	He C H, Yang H L, Chen X H, Wang Y P, Li G Z 2003 Chin. Phys. Soc. 52 180
[6]	Di M W, He S Y, Li R Q, Yang D Z 2006 Nucl. Instr Meth. Phys. Res. B 252 212
[7]	Wang Z X, Li X P, Yu L P, Ma Y G, He G W, Hu G, Chen Y, Duan X F 2002 Acta Phys. Sin. 51 620 (in Chinese) [王震遐, 李学鹏, 余礼平, 马余刚, 何国伟, 胡岗, 陈一, 段晓峰 2002 物理学报 51 620]
[8]	Wang K Y, Li Z H, Gao K, Zhu Y M 2012 Acta Phys. Sin. 61 097803 (in Chinese) [王凯悦, 李志宏, 高凯, 朱玉梅 2012 物理学报 61 097803]
[9]	Archubi C D, Eckardt J C, Lantschner G H, Arista N R 2006 Phys. Rev. A 73 042901
[10]	Chimi Y, Iwase A, Ishikawa N, Kobiyama M, Inami T, Okuda S 2001 J. Nucl. Mater. 297 355
[11]	Zhang J M, Lian J, Fuentes A F, Zhang F X, Lang M, Lu F Y, Ewing R C 2009 Appl. Phys. Lett. 94 243110
[12]	Shen T D, Feng S H, Tang M, Valdez J A, Wang Y Q, Sickafus K E 2007 Appl. Phys. Lett. 90 263115
[13]	Tripathy S P, Mishra R, Kulshreshtha A, Dwivedi K K, Khathing D T, Srivastava A, Ghosh S, Fink D 2001 Radiation Measurements. 33 171
[14]	Feng Y J, Ha G X, Liu S F 2007 Journal of Astronautics. 28 1071 (in Chinese) [冯彦君, 华更新, 刘淑芬 2007 宇航学报 28 1071]
[15]	Yu J N 2007 Material Radiation Effects (Beijing: Chemical Industry Press) p7 (in Chinese) [郁金南 2007 材料辐照效应 (北京:化学工业出版社) 第7页]
[16]	Wang C S, Luo W Y, Xu M J, Zhou S X, Feng Y X, Zhang L M, Gu J Q 1994 Journal of Radiation Research and Radiation Processing. 12 209 (in Chinese) [王传珊, 罗文芸, 许梦杰, 周树鑫, 冯永祥, 张利民, 顾继青 1994 辐射研究与辐射工艺学报 12 209]
[17]	Erb U 1995 Nanostruct. Mater. 6 533
[18]	Wang G H, Han M 1998 Progress in Physics. 10 248 (in Chinese) [王广厚, 韩民 1990 物理学进展 10 248]
[19]	Eberhart M E, Vedensky D D 1987 Phys. Rev. Lett. 58 61

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Vol. 62, Issue 9 - 2013-05-05

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