Studying on the Propagation Behavior of Bent Crack Bending from Slant Pre-Crack with Compressive Residual Stress

Author:

Ma You Li1

Affiliation:

1. Harbin University of Commerce

Abstract

For a slant pre-crack under mixed-mode conditions, a method is proposed in which mode Ⅰ and mode Ⅱ stress intensity factors ‹KImes and ‹KIImes can be directly evaluated from the discontinuous displacement along it. The effect on fatigue pre-crack deformation behavior was discussed by comparing fatigue and annealed cracks. In general, using the biggest tangential stress criterion the direction propagating from the pre-cracks can be predicted by ‹KImes and ‹KIImes calculated above. So testing for bending fatigue crack propagation under mixed-mode conditions was carried out using fatigue and annealed slant pre-cracks with slant angle β=450 defined as the angle between loading and pre-crack direction in a rectangular plate. As a result, for annealed pre-crack, the estimated fracture angle θestcorresponded to the measured oneθmes ; On the other hand, for fatigue pre-crack,θmes is bigger than θest because of the compressive residual stress around the pre-crack .

Publisher

Trans Tech Publications, Ltd.

Subject

General Engineering

Reference9 articles.

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3. Okamura H. Linear Fracture Mechanics [M]. Tokyo: Baihuu-kan, 2002. 15-25.

4. Yokobori, T., Yokobori, T. and Ishii, K., et al. Fracture Crack Growth Rate and Crack Initiation and Fracture Life under Mixed ModeⅠandⅡ[J]. Journal of the Society of Materials Science. Japan, 1986, 35 (395), 930—935.

5. Kitagawa, H. Yuuki, R. and Tohgo, K., Fatigue Crack Growth Behavior from Mixed Mode Crack with KⅠand KⅡ[J]. Transactions of the Japan Society of Mechanical Engineers, Series A. 1981, 47 (424), 1283—1292.

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