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 2009

时效温度及微量Zr+Si对Zn--22\%Al合金阻尼性能的影响

, PP. 1099-1105

刘树伟,李秀艳,闫德胜,戎利建

Keywords: Zn--22%Al,时效温度,Zr,Si,阻尼性能

Full-Text Cite this paper Add to My Lib

Abstract:

采用动态力学分析仪(DMA)结合显微组织观察,研究了淬火后时效温度以及微量Zr+Si对Zn-22%Al合金阻尼性能的影响.结果表明,随着时效温度的升高,过饱和铝固溶体(α'相)分解加速,片层状组织数量增加并粗化,相界面数量减少,合金的阻尼性能降低.向Zn--22%Al合金中添加微量的Zr+Si后,Zr可抑制合金内粗大树枝晶的生成,细化枝晶;Si可降低α'相分解速率,部分α'相在较低温度下分解成粒状组织,增加铸态合金内相界面数量,同时初生Si相与基体形成非共格界面,产生Si相/基体界面弛豫行为,从而显著提高合金的阻尼性能.Si相与基体因热错配引入的位错通过原子的互扩散而逐渐消失,对合金阻尼性能的影响较小.

References

[1]	Sun L C, Tian R Z. Physical Metallurgy of Zinc and Zinc Alloys. Changsha: Zhongnan Industry University Press, 1994: 19, 21, 283
[2]	(孙连超, 田荣璋. 锌及锌合金物理冶金学. 长沙: 中南工业大学出版社, 1994: 19, 21, 283)
[3]	Nuttall K. J Inst Met, 1971; 99: 266
[4]	Zhu X F. J Appl Phys, 1990; 67 : 7287
[5]	Ritchie I G, Pan Z L. Metall Trans, 1991; 22A: 607
[6]	Ritchie I G, Pan Z L, Goodwin F E. Metall Trans, 1991; 22A: 617
[7]	Wei J N, Li Z B, Han F S. Phys Stat Sol, 2002; 191A: 435
[8]	Hinai M, Sawaya S, Masumoto H. J Jpn Inst Met, 1991; 55: 715
[9]	Smith A E W, Hare G A. J Inst Met, 1973; 101: 320
[10]	Luo B H, Bai Z H, Xie Y Q. Mater Sci Eng, 2004; 370A: 172
[11]	Savaskan T, Murphy S. Wear, 1987; 116: 211
[12]	Zhang Z M, Wang J C, Guo X F, Liu H Z, Yang G C. Chin J Nonferrous Met, 2003; 13: 1175
[13]	(张忠明, 王锦程, 郭学锋, 刘宏昭, 杨根仓. 中国有色金属学报, 2003; 13: 1175)
[14]	Jones R D, Thomas K G. Philos Mag, 1970; 22: 427
[15]	Kato M, Kawai E. J Jpn Inst Met, 1974; 38: 539
[16]	Tian R Z, Yang K. Hunan Metall, 1990; (3): 17
[17]	(田荣璋, 杨康. 湖南冶金, 1990; (3): 17)
[18]	Gao G M, Gu M, Jia L S. Foreign Met Mater, 1989; (1): 44
[19]	(高光敏, 顾敏, 贾禄坤. 国外金属材料, 1989; (1): 44)
[20]	Norman A F, Prangnell P B, McEwen R S. Acta Mater, 1998; 46: 5715
[21]	Knipling K E, Dunand D C, Seidman D N. Acta Mater, 2008; 56: 114
[22]	Fuller M L, Wilcox R L. Trans AIMME, 1935; 117: 338
[23]	Gale W F, Totemeier T C. Smithells Metals Reference Book. 8th ed, Boston: Butterworth-Heinemann Press, 2004: 6-1
[24]	Schoeck G. Phys Stat Sol, 1969; 32: 651
[25]	Entwistle K M, Fuller P, Brough I. Acta Mater, 1978; 26: 1055
[26]	Arsenault R J, Shi N. Mater Sci Eng, 1986; 81: 175
[27]	Zhang J, Perez R J, Lavernia E J. J Mater Sci, 1993; 28: 835
[28]	Liu X X, Gao D J. Handbook of Common Used Data in the Techniques of Semi-Conductor Parts Fabricating Process. Beijing: Electronics Industry Press, 1992: 207
[29]	(刘秀喜, 高大江. 半导体器件制造工艺常用数据手册. 北京: 电子工业出版社, 1992: 207)
[30]	Foundry Institution of Chinese Mechanical Engineering Society. Foundry Handbook Vol.3 (Non-Ferrous Cast Alloys). Beijing: Mechanical Industry Press, 1993: 404
[31]	(中国机械工程学会铸造专业学会. 铸造手册第3卷(铸造非铁合金). 北京: 机械工业出版社, 1993: 404
[32]	Luo B H, Zhou S C. J Cent South Univ Technol, 1996; 27: 452
[33]	(罗兵辉, 周善初. 中南工业大学学报, 1996; 27: 452)

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133