An effective method of stress intensity factor calculation for cracks emanating from a triangular or square hole under biaxial loads |
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Authors: | X YAN |
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Affiliation: | Research Lab for Composite Materials, Harbin Institute of Technology, Harbin 150001, P. R. China |
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Abstract: | This paper is concerned with stress intensity factors for cracks emanating from a triangular or square hole under biaxial loads by means of a new boundary element method. The boundary element method consists of the constant displacement discontinuity element presented by Crouch and Starfied and the crack‐tip displacement discontinuity elements proposed by the author. In the boundary element implementation, the left or the right crack‐tip displacement discontinuity element is placed locally at the corresponding left or right crack tip on top of the constant displacement discontinuity elements that cover the entire crack surface and the other boundaries. The method is called a Hybrid Displacement Discontinuity Method (HDDM). Numerical examples are included to show that the method is very efficient and accurate for calculating stress intensity factors for plane elastic crack problems. In addition, the present numerical results can reveal the effect of the biaxial loads on stress intensity factors. |
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Keywords: | boundary element method crack-tip element displacement discontinuity stress intensity factor |
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