Stability study of centrifugal pendulum vibration absorbers in gravity field

IF 1.9 4区 工程技术 Q3 ENGINEERING, MECHANICAL
Yi Zhang, Guangqiang Wu, Daguan Chen
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引用次数: 5

Abstract

In this study, Lyapunov stability theory was used to systematically investigate the stability of centrifugal pendulum vibration absorber (CPVA) in terms of the shape of the absorber path, mistuning levels, damping coefficient, number of absorbers, and force of gravity. Our approach improved upon previous studies by introducing a gravity term, optimising the calculation method, and using a function diagram to represent the asymptotically stable region to produce more accurate results. Our finding that the influence of gravity on the stability of the CPVA system is reflected in the change of the tuning order prompted us to define new terminology—’gravity mistuning factor ( Δ σ η )’ and ‘zone yielding to gravity ( ZY )’—to intuitively reflect the influence of gravity. Comparison of the results obtained from numerical simulation based on a fully nonlinear equation of motion with analytical results revealed nonlinear dynamic characteristics such as bifurcation to asynchrony response, nonlinear jump, and beat phenomena. The approach and results of this study are more practical in settings in which gravity plays an important role, including vehicle engine idling, low-speed locomotive or marine engines, and drum washing machines.
离心式摆振器在重力场中的稳定性研究
本研究运用李雅普诺夫稳定性理论,从吸振路径形状、失谐程度、阻尼系数、吸振器数量、重力等方面对离心摆式吸振器的稳定性进行了系统研究。我们的方法在前人研究的基础上进行了改进,引入了重力项,优化了计算方法,并使用函数图来表示渐近稳定区域,从而得到了更精确的结果。我们发现重力对CPVA系统稳定性的影响反映在调谐顺序的变化上,这促使我们定义了新的术语“重力失谐因子(Δ σ η)”和“重力屈服区(ZY)”来直观地反映重力的影响。基于完全非线性运动方程的数值模拟结果与解析结果的比较揭示了非线性动力学特征,如分岔到异步响应、非线性跳跃和跳动现象。本研究的方法和结果在重力发挥重要作用的环境中更为实用,包括汽车发动机空转、低速机车或船舶发动机以及滚筒洗衣机。
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
CiteScore
4.10
自引率
11.10%
发文量
38
审稿时长
>12 weeks
期刊介绍: The Journal of Multi-body Dynamics is a multi-disciplinary forum covering all aspects of mechanical design and dynamic analysis of multi-body systems. It is essential reading for academic and industrial research and development departments active in the mechanical design, monitoring and dynamic analysis of multi-body systems.
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