Rolling Bearing Damage Evaluation by the Dynamic Process From Self-Induced Resonance to System Resonance of a Duffing System

Shuai Zhang, Zhongqiu Wang, Jianhua Yang
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Abstract

The dynamic response of a Duffing system from self-induced resonance to system resonance is studied in this paper. From numerical simulation, it is found that the system response gradually transits from self-induced resonance to system resonance with the increase of the pulse amplitude of the signal. In order to describe this process, we define the quality factor of the system response. With the evolution from self-induced resonance to system resonance, the quality factor gradually increases from 0 to 1. Then, based on the evolution, a novel method is developed to evaluate the severity of rolling bearing early damage. The results show that the method can not only be used to describe the process of a rolling bearing from healthy to damaged, but also to evaluate the severity of the early damage of a rolling bearing. The quality factor is a key index to reflect the severity of a rolling bearing. In addition, the sensitivity of the quality factor is superior to other traditional indices former used in the early damage evaluation. The effective method gives a new way for rolling bearing early damage evaluation.
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基于自激共振到系统共振动态过程的滚动轴承损伤评估
本文研究了Duffing系统从自激共振到系统共振的动态响应。通过数值模拟发现,随着信号脉冲幅度的增大,系统响应逐渐从自激共振过渡到系统共振。为了描述这一过程,我们定义了系统响应的质量因子。随着自激共振向系统共振的演化,质量因子由0逐渐增大到1。然后,在此基础上,提出了一种新的滚动轴承早期损伤严重程度评估方法。结果表明,该方法不仅可以用来描述滚动轴承从健康到损坏的过程,而且可以用来评价滚动轴承早期损伤的严重程度。质量因子是反映滚动轴承严重程度的关键指标。此外,质量因子的灵敏度优于以往用于早期损伤评价的其他传统指标。该方法为滚动轴承早期损伤评估提供了一条新的途径。
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CiteScore
5.20
自引率
13.60%
发文量
34
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