Determination of stress intensity factors by the finite element discretized symplectic method |
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Authors: | AYT Leung Zhenhuan Zhou Xinsheng Xu |
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Institution: | 1. Department of Civil and Architectural Engineering, City University of Hong Kong, Hong Kong;2. State Key Laboratory of Structure Analysis of Industrial Equipment, Department of Engineering Mechanics, Dalian University of Technology, Dalian 116024, PR China |
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Abstract: | When rewriting the governing equations in Hamiltonian form, analytical solutions in the form of symplectic series can be obtained by the method of separation of variable satisfying the crack face conditions. In theory, there exists sufficient number of coefficients of the symplectic series to satisfy any outer boundary conditions. In practice, the matrix relating the coefficients to the outer boundary conditions is ill-conditioned unless the boundary is very simple, e.g., circular. In this paper, a new two-level finite element method using the symplectic series as global functions while using the conventional finite element shape functions as local functions is developed. With the available classical finite elements and symplectic series, the main unknowns are no longer the nodal displacements but are the coefficients of the symplectic series. Since the first few coefficients are the stress intensity factors, post-processing is not required. A number of numerical examples as well as convergence studies are given. |
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Keywords: | Finite element discretized symplectic method Stress intensity factor Method of separation of variables |
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