Algorithm for analysis of periodic oscillations of structural systems with geometric nonlinearity

M. Ragulskis, K. Ragulskis
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引用次数: 1

Abstract

An algorithm for analysis of periodic oscillations of forced elastic systems with geometric nonlinearity is presented in this paper. Modal decomposition of the solution, computation of periodic oscillations for every eigenmode and estimation of geometric nonlinearities using the method of initial deformations enable to construct a computational technique that can be very effective in computation of steady-state periodic motions of slightly damped structures under periodic forcing. It is shown that the developed algorithm can be successfully exploited for the calculation of structural response of a micromechanical cantilever. Copyright © 2007 John Wiley & Sons, Ltd.
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几何非线性结构系统周期振动分析算法
提出了一种具有几何非线性的强迫弹性系统周期振动分析算法。通过对解的模态分解、每个特征模态的周期振动计算和初始变形法的几何非线性估计,构建了一种可以非常有效地计算周期强迫下微阻尼结构稳态周期运动的计算技术。结果表明,所开发的算法可以成功地用于微机械悬臂梁的结构响应计算。版权所有©2007 John Wiley & Sons, Ltd
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