|
OALib Journal期刊
ISSN: 2333-9721
费用:99美元
|
|
|
|
加载方式对奥氏体不锈钢力学性能和马氏体相变的影响
DOI: 10.3724/SP.J.1037.2012.00769, PP. 775-782
Keywords: 奥氏体不锈钢,加载方式,循环加卸载拉伸,形变诱发马氏体,相变增塑效应
Abstract:
研究了不同温度范围单向拉伸加载方式对奥氏体不锈钢力学性能和组织演变的影响.结果表明,循环加卸载拉伸方式显著影响304不锈钢的力学性能在高温拉伸变形时,不同加载方式所得到的力学性能相同;在0℃以下,循环加卸载方式导致试样的延伸率降低;而在室温条件下,循环加卸载拉伸能够最大程度地提高试样的强度和延伸率.通过对304不锈钢室温拉伸过程的原位观测证实,卸载过程导致能够有效激发形变诱发马氏体相变的形核和长大,从而使相变增塑效应增强,延迟缩颈及断裂的能力得以提高.
| [1] | Huang G L, Matlock D K, Krauss G. Metall Trans,1989; 20A: 1239
|
| [2] | Breedis J F. Acta Metall, 1965; 13: 239
|
| [3] | Spencer K, Veron M, Zhang K Y, Embury J D.Mater Sci Technol, 2009; 25: 7
|
| [4] | Zhang X H, Qiu X G, Lu G Q, Tang J. Iron Steel Vanadium Titanium, 2001; 22(1): 63
|
| [5] | (张晓华, 邱晓刚, 卢国清, 唐静. 钢铁钒钛, 2001; 22(1): 63)
|
| [6] | Song Y Q, Guan Z P, Li Z G, Wang M H. Sci China SerE-Technol Sci, 2007; 37: 1363
|
| [7] | (宋玉泉, 管志平, 李志刚, 王明辉. 中国科学E辑: 技术科学, 2007;37: 1363)
|
| [8] | Hedworth J, Stowell M J. J Mater Sci, 1971; 6:1061
|
| [9] | Hecker S S, Stout M G, Staudhammer K P, Smith J L.Metall Trans, 1982; 13A: 619
|
| [10] | Rocha M R, Oliveira C A. Mater Sci Eng, 2009; A517:281
|
| [11] | Bayerlein M, Christ H J, Mughrabi H.Mater Sci Eng,1989; A114: L11
|
| [12] | Nagy E, Mertinger V, Tranta F, Solyom J.Mater Sci Eng, 2004; A378: 308
|
| [13] | Yang Z Y, Su J, Chen J Y, Xiong J X. Iron Steel,2007; 42(5): 61
|
| [14] | (杨卓越, 苏杰, 陈嘉砚, 熊建新. 钢铁, 2007; 42(5): 61)
|
| [15] | Lebedev A A, Kosarchuk V V. Int J Plast, 2000; 16:749
|
| [16] | Park W S, Yoo S W, Kim M H, Lee J M. Mater Des,2010; 31: 3630
|
| [17] | Xu Y, Zhang S H, Song H W, Cheng M, Zhang H Q.Mater Lett, 2011; 65: 1545
|
| [18] | Xu Y, Zhang S H, Cheng M, Song H W. Scr Mater,2012; 67: 771
|
| [19] | Cullen G W, Korkolis Y P. Int J Solids Struct,2013; 50: 1621
|
| [20] | Cullen G W, Korkolis Y P. AIP Conf Proc, 2013;1532: 725
|
| [21] | Hong S G, Lee S B. Int J Fatigue, 2004; 26: 899
|
| [22] | Lee S H, Lee J C, Choi J Y, Nam W J.Met Mater Int, 2010; 16: 21
|
| [23] | Gibbs G B. Philos Mag Lett, 1966; 13: 317
|
| [24] | Song Y Q, Lian S J, Zhang Z J. Chin J Mech Eng,1989; 25(3): 38
|
| [25] | (宋玉泉, 连书君, 张振军. 机械工程学报, 1989; 25(3): 38)
|
| [26] | Wang G C, Cao C X, Dong H B, Li Z X, Yang G, Zhao X B. Acta Aeronaut Astronaut Sin, 2009; 30: 357
|
| [27] | (王高潮, 曹春晓, 董洪波, 李臻熙, 杨刚, 赵晓宾. 航空学报,2009; 30: 357)
|
| [28] | Zhang W F, Chen Y M, Zhu J H. Chin J Nonferrous Met, 2000; 10: 236
|
| [29] | (张旺峰, 陈瑜眉, 朱金华. 中国有色金属学报, 2000; 10: 236)
|
| [30] | Yu H Y. Mater Sci Eng, 2008; A79: 333
|
| [31] | Zhou X F, Fu R Y, Su Y, Li L. Iron Steel, 2009;44(3): 71
|
| [32] | (周小芬, 符仁钰, 苏钰, 李麟. 钢铁, 2009; 44(3): 71)
|
| [33] | Fang X F, Dahl W. Mater Sci Eng, 1991; A141: 189
|
Full-Text
|
|
Contact Us
service@oalib.com QQ:3279437679 
WhatsApp +8615387084133
|
|
