Energy-based formulation for nonlinear normal modes in cable-stayed beam

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摘要

Based on Hamilton’s variational principle, the governing equations for in-plane dynamics of the model are obtained. Nonlinear normal modes for composite structure cable-stayed beam have been studied extensively in the literature. When all particles of the system reach their extremum values at the same instant of time, there are free periodic motions. A partial differential equation related to the modal function has been constructed by means of conservation of energy, which can be solved using a perturbation methodology. Most studies have been limited to uncoupling nonlinear terms of the system. This work investigated the nonlinear normal modes in the system that contains coupling nonlinear terms. The results of the two classes of nonlinear terms are also compared in this study.

论文关键词:Cable-stayed beam,Nonlinear normal mode,Nonlinear coupling term

论文评审过程:Received 4 May 2014, Revised 21 April 2015, Accepted 3 May 2015, Available online 26 May 2015, Version of Record 26 May 2015.

论文官网地址:https://doi.org/10.1016/j.amc.2015.05.011