制备了3种不同氢含量的高强弹簧钢50CrV4样品(淬火,回火样品,0.6×10-6;真空退火样品,0.2×10-6;高温高压热充氢样品, 2.5×10-6).SEM观察表明,疲劳断口内部起裂源为小夹杂团簇;疲劳强度测试表明,随氢含量(c)的增加,疲劳强度基本上按σ0-α exp(c)规律降低, Basquin方程中的Basquin指数随氢含量的增加有明显变化.
参考文献
| [1] | Chapetti M D,Tagawa T,Miyata T.Mater Sci Eng,2003;A356:227 |
| [2] | Bathias C.Fatigue Fract Eng Mater Struct,1999; 22:559 |
| [3] | Wang Q Y,Berard J Y,Dubarre A,Baudry G.,Rathery S,Bathias C.Fatigue Fract Eng Mater Struct,1999; 22:667 |
| [4] | Murakami Y,Nomoto T,Ueda T.Fatigue Fract Eng Mater Struct,2000; 23:893 |
| [5] | Shiozawa K,Morii Y,Nishino S,Lu L.Int J Fatigue,2006;28:1521 |
| [6] | Murakami Y,Matsunaga H.Int J Fatigue,2006; 28:1509 |
| [7] | Li X Y,Li Y Y.The Hydrogen Damage of Austenite Al-loys.Beijing:Science Press,2003:83(李秀艳,李依依.奥氏体合金的氢损伤.北京;科学出版社,2003:83) |
| [8] | Chu W Y,Qiao L J,Chen Q Z.Fracture and Environ-mental Fracture.Beijing:Sciences Press,2000:101(褚武扬,乔立杰,陈奇志.断裂与环境断裂.北京:科学出版社,2000:101) |
| [9] | Li X Y,Li Y Y.The Hydrogen Damage of Austenite Al-loys.Beijing:Science Press,2003:1(李秀艳,李依依.奥氏体合金的氢损伤.北京:科学出版社,2003:1) |
| [10] | Wang M Q,Akiyama E,Tsuzaki K.Scr Mater,2005; 52:403 |
| [11] | Zhang J M,Li S X,Yang Z G.,Li G.Y,Hui W J,Weng Y Q.Int J Fatigue,2007; 29:765 |
| [12] | Yang Z G,Zhang J M,Li S X,Li G Y,Hui W J,Weng Y Q.Mater Sci Eng,2006; A427:167 |
| [13] | Suresh S,Translate by Wang Z G,et al.Fatigue of Mate-rials.2nd Ed.,Beijing:National Defence Industry Press,1999:157(Suresh S 著;王中光,等译.材料的疲劳.第2版,北京;国防工业出版社,1999:157) |
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%