Size evolution of the surface short fatigue cracks of 1Cr18Ni9Ti weld metal was investigated. A local viewpoint is applied to be agreement with a so-called "effectively short fatigue crack criterion". Attention was paid to the dominant effectively short fatigue crack (DESFC) initiation zone and the zones ahead of the DESFC tips. The results revealed that the evolutionary size shows a significant character of microstructural short crack (MSC) and physical short crack (PSC) stages. In the MSC stage, fatigue damage is due to mainly the initiation and irregular growth of the effectively short fatigue cracks (ESFCs). In the PSC stage, the damage is conversely due to mainly the DESFC growth and partially, the growth of the ESFCs and the coalescence of the ESFCs themselves with the DESFC. The process involves from a non-ordered/chaotic state in the initiation of MSC stage, gradually to an independently random state at the transition point between the MSC and PSC stages and then, to an ordered/history-dependent random state. Interactive effect of the collective cracks is stronger and shows an increase in the MSC stage. It reaches a maximum value at the transition point and then, tends to a decrease in the PSC stage. The DESFC acts as a result of the interactive cracks and thus, is deemed suitable to describe the behaviour of collective cracks.
参考文献
| [1] | C M Suh;J J Lee;Y G Kang .[J].Fatigue & Fracture of Engineering Material & Structure,1990,13:487. |
| [2] | X Demulsant;J Mendez .[J].Fatigue & Fracture of Engineering Material & Structure,1995,18:1483. |
| [3] | S I Hong;C Laird .[J].Fatigue & Fracture of Engineering Material & Structure,1991,14:143. |
| [4] | P Hyspecky;B Strnadel .[J].Fatigue & Fracture of Engineering Material & Structure,1992,15:845. |
| [5] | S Berreta;P Clerici .[J].Fatigue & Fracture of Engineering Material & Structure,1996,19:1107. |
| [6] | Y X ZHAO.Ph D Thesis,Southwest Jiaotong University[M].Chengdu,People'a R China,1998 |
| [7] | Y. -X. Zhao;Q. Gao;J. -N. Wang .Interaction and evolution of short fatigue cracks[J].Fatigue & Fracture of Engineering Materials and Structures,1999(6):459-467. |
| [8] | Y. X. Zhao;Q. Gao;J. -N. Wang .Microstructural effects on the short crack behaviour of a stainless steel weld metal during low-cycle fatigue[J].Fatigue & Fracture of Engineering Materials and Structures,1999(6):469-480. |
| [9] | Y X ZHAO;J N WANG;Q GAO .[J].Theoretical and Applied Fracture Mechanics,1999,32:55. |
| [10] | Y.X. Zhao;J.N. Wang;Q. Gao .Random cyclic stress-strain responses of a stainless steel pipe-weld metal I -- a statistical investigation[J].Nuclear engineering and design,2000(3):303-314. |
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