Analysis of nonlinear dynamic stability of liquid-converying pipes |
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Authors: | Zhang Li-xiang Professor Doctor Huang Wen-hu Professor |
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Institution: | (1) Department of Engineering Mechanics, Kunming University of Science and Technology, 650051 Kumming, P R China;(2) School of Aeronautics, Harbin Institute of Technology, 150001 Harbin, P R China |
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Abstract: | Nonlinearly dynamic stability of flexible liquid-conveying pipe in fluid structure interaction was analyzed by using modal
disassembling technique. The effects of Poisson, Junction and Friction couplings in the wave-flowing-vibration system on the
pipe dynamic stability were included in the analytical model constituted by four nonlinear differential equations. An analyzing
example of cantilevered pipe was done to illustrate the dynamic stability characteristics of the pipe in the full coupling
mechanisms, and the phase curves related to the first four modal motions were drawn. The results show that the dynamic stable
characteristics of the pipe are very complicated in the complete coupling mechanisms, and the kinds of the singularity points
corresponding to the various modal motions are different.
Foundation items: the National Natural Science Foundation of China (50079007); the Hydraulic Science Foundation of China Hydraulic Ministry
(SZ9830); the Natural Science Foundation of Yunnan Provicce (98E003G)
Biographies: ZHANG Li-xiang (1959−) HUANG Wen-hu (1926−) |
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Keywords: | piping flow fluid structure interaction nonlinear vibration bifurcation |
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