Non-Synchronous Vibration and Lock-in Regimes in Coupled Structures Using Reduced Models

Volume 10: 33rd Conference on Mechanical Vibration and Sound (VIB) Pub Date : 2021-08-17 DOI:10.1115/detc2021-66815
M. Byrtus, Š. Dyk, M. Hajžman
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Abstract

The contribution is aimed at phenomenological modelling and analysis of fundamental properties of non-synchronous vibrations in chosen coupled structures. A van der Pol reduced-order model is employed to simulate the aero-elastic interaction between flexible bodies and fluid. Non-synchronous vibration and frequency lock-in, along with hysteresis, are captured in the main resonance area. Moreover, the model reveals subharmonic resonances accompanied by the existence of unstable solutions and frequency lock-in. The study is further extended to investigate the dynamical behaviour of a coupled cyclic structure, where different modes of vibration due to the aero-elastic interaction are analysed.
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基于简化模型的耦合结构非同步振动和锁定状态
贡献的目的是现象学建模和分析的基本性质的非同步振动在选定的耦合结构。采用范德波尔降阶模型模拟了柔性体与流体的气弹性相互作用。在主共振区捕获非同步振动和频率锁定以及磁滞。此外,该模型还揭示了伴随不稳定解和频率锁定存在的次谐波共振。该研究进一步扩展到研究耦合循环结构的动力行为,其中分析了由于气动-弹性相互作用而产生的不同振动模式。
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Volume 10: 33rd Conference on Mechanical Vibration and Sound (VIB)
Volume 10: 33rd Conference on Mechanical Vibration and Sound (VIB)
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