Tuning vibration absorbers to mitigate simultaneous regenerative and mode-coupling chatter

Q3 Physics and Astronomy

Noise and Vibration Worldwide Pub Date : 2023-05-31 DOI:10.1177/09574565231179731

M. Mobaraki, J. Ratava

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引用次数: 0

Abstract

This paper examines a set of parametric tunings for vibration absorbers to enhance stability in the event of simultaneous chatter during machining and proposes a novel tuning criterion of minimizing the definite integral of frequency response function, while accounting for damping of the absorber’s base component. Chatter vibrations are an inherent characteristic of machining processes, and a common tool for mitigating chatter is a tuned mass damper (TMD), which functions effectively when its dynamic characteristics are appropriately tuned to the natural frequency of the vibrating base component. Robotic machining is a recent cost-effective method of material removal, but simultaneous regenerative and mode-coupling chatter can arise on robot tools. TMD tuning criteria for mode-coupling and regenerative chatter are different, and tuning to suppress one may prompt the other. Moreover, conventional analytical tunings do not consider damping of the base component, which may be a valid assumption for low-damped machine tools but not for highly-damped robot tools. The possibility of simultaneous chatter and base component damping effect necessitates the exploration of alternative tuning criteria.

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调谐减振器以减轻同时发生的再生和模式耦合颤振

本文研究了减振器的一组参数调谐，以提高在加工过程中同时发生颤振时的稳定性，并提出了一种新的调谐准则，即在考虑减振器基础部件阻尼的情况下，使频响函数定积分最小。颤振振动是机械加工过程的固有特性，调谐质量阻尼器(TMD)是一种常用的减轻颤振的工具，当其动态特性适当地调谐到振动基座部件的固有频率时，TMD可以有效地发挥作用。机器人加工是近年来一种经济有效的材料去除方法，但机器人刀具会同时产生再生和模态耦合颤振。模式耦合和再生颤振的TMD调谐标准是不同的，通过调谐来抑制一个颤振可能会导致另一个颤振。此外，传统的分析调谐不考虑基础部件的阻尼，这对于低阻尼机床可能是一个有效的假设，但对于高阻尼机器人工具则不然。颤振和基分量阻尼效应同时存在的可能性需要探索替代调谐准则。

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

Noise and Vibration Worldwide Physics and Astronomy-Acoustics and Ultrasonics

CiteScore

1.90

自引率

0.00%

发文量

期刊介绍： Noise & Vibration Worldwide (NVWW) is the WORLD"S LEADING MAGAZINE on all aspects of the cause, effect, measurement, acceptable levels and methods of control of noise and vibration, keeping you up-to-date on all the latest developments and applications in noise and vibration control.