OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

金属学报 2005

微米尺寸不锈钢的形变与疲劳行为的尺寸效应

, PP. 337-341

张广平,高岛和希,肥後矢吉

Keywords: 微米尺度,形变,疲劳

Full-Text Cite this paper Add to My Lib

Abstract:

采用聚焦离子束溅射蚀刻加工了微米尺寸304不锈钢悬臂梁试样。利用静态及动态弯曲加载研究了微米尺寸材料的形变与疲劳开裂行为。结果表明随薄膜厚度的减小，材料的屈服强度升高，塑性下降。屈服强度随悬壁梁厚度的变化关系与Hall-Petch晶粒强化关系相似。微小悬壁梁屈服强度的升高来源于小尺度材料在非均匀变形下引起的应变梯度贡献的增加；而塑性下降则归因于较薄薄膜的晶粒内较少的可动位错。疲劳裂纹从尖缺口处萌生的门槛值接近块体材料。

References

[1]	FFujimasa I. Micromachines-A New Era in Mechanical Engineering, Oxford: Oxferd Science Publications, 2000
[2]	NNix W D. Metall Trans, 1989; 20A: 2217
[3]	ZZhang G P, Takashima K, Shimojo M, Higo Y. Int J Mater Prod Technol, 2001; Suppl.l: 298
[4]	SSchwaiger R, Kraft O. Scr Mater, 1999; 41: 823
[5]	TTakashima K, Higo Y, Sugiura S, Shimojo M. Mater Trans, 2001; 42: 68
[6]	ZZhang G P, Schwaiger R, Volkert C A, Kraft O. Philos Mag Lett, 2003; 83: 477
[7]	ZZhang G P, Volkert C A, Schwaiger R, Arzt E, Kraft O. J Mater Res, 2005; 20: 201
[8]	TTakashima K, Maekawa S, Shimojo M, Higo Y, Sugiura S, Pfister B, Swain M V. In: Wu X R, Wang Z G, eds., Proceedings of the 7th International Fatigue Congress, UK Gradley Heath: High Education Press, 1999; Vol Ⅲ: 1871
[9]	ZZhang G P, Wang Z G, Li G Y. Acta Mater, 1997; 45: 1705
[10]	Weihs T P, Hong S, Bravman J C, Nix W D. J Mater Res, 1998; 3: 391
[11]	Kelegemur, M. H, Chaki, T. K. Int J Fatigue, 2001; 23: 169
[12]	Benjamin D. Metals Handbook: Properties and Selection of Stainless Steels. Ohio. Metals Park: ASM, 1980: 19
[13]	Takaki, S, Tanimoto, S, Tokunaga Y. Proceedings of Japan Institute of Metals Symposium. Nagoya, 1984: 162
[14]	Lee H J, Zhang P, Bravman J C. Appl Phys Lett, 2004; 84: 915
[15]	Gao H J. Scr Mater, 2003; 48: 113
[16]	Keller R R, Phelps J M, Read D T. Mater Sci Eng, 1996; A214: 42
[17]	Zhang G P, Takashima K, Shimojo M, Higo Y. Mater Lett, 2003; 57: 1555

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133