具有弱非线性的薄圆柱壳振动的数值分析

Askat K. Kudaibergenov Analysis of Thin, Askar Kudaibergenov Shell Vibrations with a, Askar K. L.A. Khajiyeva, 1. Kudaibergenov
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引用次数: 0

摘要

. 本文研究了无限薄圆柱壳作为纳米管的极限情况下的非线性振动问题。利用Sanders-Koiter非线性壳理论的主要关系和Hamilton变分原理,得到了壳振动的非线性数学模型,充分考虑了非线性效应的影响。利用指定快慢时间的多尺度方法,得到了考虑二次非线性和三次非线性的高阶渐近关系。基于四阶渐近格式的解,应用半膜壳理论的不可拓性条件,对圆柱壳在阶上的切向位移和径向位移相对于傅里叶系数进行了数值分析。研究了波数、极角、半径和壳壁厚度对产生振动的振幅和周期的影响。给出了几种情况下所得解的数值说明。
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Numerical analysis of thin cylindrical shell vibrations with a weak nonlinearity
. In this paper, nonlinear vibrations of an infinite thin cylindrical shell as a limiting case of a nanotube are studied. The main relations of Sanders-Koiter’s nonlinear shell theory and the Hamilton variation principle are applied to obtain a nonlinear mathematical model of the shell vibrations and allow fully accounting for the influence of nonlinear effects. Using the method of multiple scales with specification of fast and slow times, high-order asymptotic relations taking into account quadratic and cubic nonlinearities are found. Based on the solution of the asymptotic scheme at fourth order and application of the inextensibility condition for the semi-membrane shell theory, the numerical analysis of tangential and radial displacements of the cylindrical shell at leading order relative to the Fourier coefficients is conducted. The impact of the wave number, polar angle, radius, and wall thickness of the shell on the amplitude and period of the arising vibrations is investigated. Numerical illustrations of the obtained solutions are presented for several cases.
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