Coupled FE–BE method for eigenvalue analysis of elastic structures submerged in an infinite fluid domain |
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| Authors: | C. J. Zheng C. Zhang C. X. Bi H. F. Gao L. Du H. B. Chen |
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| Affiliation: | 1. Institute of Sound and Vibration Research, Hefei University of Technology, Hefei, Anhui, China;2. Department of Civil Engineering, University of Siegen, Siegen, Germany;3. College of Mechanical and Electrical Engineering, Wenzhou University, Wenzhou, Zhejiang, China;4. School of Mathematical Sciences, Dalian University of Technology, Dalian, Liaoning, China;5. Department of Modern Mechanics, University of Science and Technology of China, Hefei, Anhui, China |
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| Abstract: | For thin elastic structures submerged in heavy fluid, e.g., water, a strong interaction between the structural domain and the fluid domain occurs and significantly alters the eigenfrequencies. Therefore, the eigenanalysis of the fluid–structure interaction system is necessary. In this paper, a coupled finite element and boundary element (FE–BE) method is developed for the numerical eigenanalysis of the fluid–structure interaction problems. The structure is modeled by the finite element method. The compressibility of the fluid is taken into consideration, and hence the Helmholtz equation is employed as the governing equation and solved by the boundary element method (BEM). The resulting nonlinear eigenvalue problem is converted into a small linear one by applying a contour integral method. Adequate modifications are suggested to improve the efficiency of the contour integral method and avoid missing the eigenvalues of interest. The Burton–Miller formulation is applied to tackle the fictitious eigenfrequency problem of the BEM, and the optimal choice of its coupling parameter is investigated for the coupled FE–BE method. Numerical examples are given and discussed to demonstrate the effectiveness and accuracy of the developed FE–BE method. Copyright © 2016 John Wiley & Sons, Ltd. |
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| Keywords: | fluid– structure interaction coupled FE– BE method nonlinear eigenvalue problem contour integral method fictitious eigenfrequency Burton– Miller formulation |
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