Frequency- and time-domain methods related to flutter instability problem

IF 0.5 Q4 ENGINEERING, CIVIL
A. Šarkić, Miloš Jočković, S. Brčić
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引用次数: 1

Abstract

Bridge flutter phenomenon presents an important criterion of instability, which should be considered in the bridge design phase. This paper presents different bridge flutter methods which can be used to solve the flutter problem. Most commonly used frequency-domain approach is based on the formulation of aero elastic forces with frequency dependent coefficients called flutter derivatives. The critical wind speed, as the main critical condition for the onset of flutter is obtained based on these aero elastic forces. Aero elastic forces can be also expressed in the time-domain, using so-called indicial functions. These functions are usually determined from the corresponding flutter derivatives. In situations when fluid-memory effects tend to become small the quasi-steady theory can be used as an approximation of aero elastic forces. A numerical example related to the typical bridge cross-section follows presented approaches. .
颤振失稳问题的频域和时域方法
桥梁颤振现象是桥梁失稳的重要判据,应在桥梁设计阶段予以考虑。本文提出了不同的桥梁颤振方法,可用于解决颤振问题。最常用的频域方法是基于气动弹性力的频率相关系数(称为颤振导数)的公式。在此基础上,得到了颤振发生的主要临界条件——临界风速。气动弹性力也可以用所谓的指示函数在时域中表示。这些函数通常由相应的颤振导数确定。在流体记忆效应趋于变小的情况下,准稳态理论可用作气动弹性力的近似。本文给出了一个典型桥梁截面的数值算例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
自引率
25.00%
发文量
4
审稿时长
4 weeks
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