用示差扫描量热仪、拉伸实验和应力-应变循环实验系统研究了退火温度、变形温度以及热循环和室温应力-应变循环对Ti49.4Ni50.6超弹性(SE)弹簧的相变和形变特性的影响冷加工加中温退火态Ti49.4Ni50.6合金冷却()加热时的相变类型为母相B2()R相()马氏体B19'.随退火温度升高,马氏体转变温度升高,R相转变温度降低623-773 K退火态Ti49.4Ni50.6弹簧室温下可获得SE特性,随变形温度升高,SE弹簧刚度增加;当退火温度超过823 K后,SE特性变差.热循环时SE弹簧的切变量取值越小,其应变恢复率越高预循环训练可增强SE的稳定性.
参考文献
| [1] | Miyazaki S, Ohmi Y, Otsuka K, Suzuki Y. J Phys Colloq,1982: 43(C4): 255 |
| [2] | Sehitoglu H, Jun J, Zhang X, Karaman I, Chumlyakov Y,Maier H J, Gall K. Acta Mater, 2001: 49:3609 |
| [3] | Liu Y, Galvin S P. Acta Mater, 1997: 45:4431 |
| [4] | Miyazaki S, Imai T, Igo Y, Otsuka K. Metall Trans, 1986:17A: 115 |
| [5] | Huang X, Liu Y. Scr Mater, 2001: 45:153 |
| [6] | Vaidynathan R, Bourke M A M, Dunand D C. Metall Mater Trans, 2001: 32A: 777 |
| [7] | McKelvey A L, Ritchie R O. Metall Mater Trans, 2001:32A: 731 |
| [8] | Todoroki T. J Jpn Inst Met, 1985: 49:439(轰恒彦.日本金属学会会志,1985:49:439) |
| [9] | Todoroki T, Tamura H. J Jpn Inst Met, 1986: 50:538(轰恒彦,田村裕一.日本金属学会会志,1986:50:538) |
| [10] | He Z R, Zhang Y H, Xie N S, Liu C. Chin J Nonferr Met,1998: 8 (Supp.1): 218(贺志荣,张永宏,解念锁,刘琛中国有色金属学报,1998:8(增刊1):218) |
| [11] | He Z R, Zhang Y H. Trans Met Heat Treat, 1999: 20 (3):31(贺志荣,张永宏金属热处理学报,1999:20(3):31) |
| [12] | Otsuka K, Wayman C M. Shape Memory Materials. Cambridge: Cambridge University Press, 1998:49 |
| [13] | Otsuka K, Ren X. Mater Sci Eng, 1999: A273-275:89 |
| [14] | Miyazaki S, Otsuka K. Metall Trans, 1986: 17A: 53 |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%