转子系统的附加故障诊断技术:最新综述

Prabhat Kumar, Rajiv Tiwari
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摘要

旋转系统中的故障会对机器造成重大损害,并可能导致停机和生产损失。因此,及时发现和诊断故障对于机器的平稳运行以及确保其安全性和可靠性非常重要。有鉴于此,文章对文献进行了综述,介绍了添加剂故障的类型以及使用传统信号技术和自动人工智能技术对其进行识别。通过文献调查,研究了安装在滚动轴承、流体动力轴承和主动磁力轴承上的故障刚性和柔性转子系统。本文所涉及的故障属于添加型故障类型,即通过添加过程变量来影响过程。转子不平衡、轴或轴承不对准、裂纹、内部阻尼、轴弯曲、转子与定子摩擦以及机械松动都属于附加故障。此外,通过理论和实验研究了解受附加故障影响的转子响应,以及利用振动和电流感应信号对其进行检测和诊断也极为重要,因此本文将对此进行简要讨论。在介绍了多重危险故障的动态分析和识别技术现状之后,本文最后提出了一般性意见和未来的研究方向。
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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Additive fault diagnosis techniques in rotor systems: a state-of-the-art review

Faults in rotating systems can cause significant damage to the machinery and can result in downtime and production losses. Hence, the timely detection and diagnosis of faults are very important for the smooth running of machines and the assurance of their safety and reliability. In view of this, a review of the literature has been presented in the article on the types of additive faults and their identification using conventional signal-based techniques and automated artificial intelligence techniques. Through a literature survey, the faulty rigid and flexible rotor systems mounted on rolling element bearings, hydrodynamic bearings, and active magnetic bearings have been studied. The faults incorporated in this article are the additive fault types, in which the process is affected by adding process variables. The rotor unbalances, shaft or bearing misalignment, crack, internal damping, bow in the shaft, rotor-to-stator rub, and mechanical looseness are the classifications of additive faults. Additionally, understanding the rotor response through theoretical and experimental investigations influenced by the additive faults and its detection and diagnosis using vibration and current-induced signals is extremely important, and therefore the present paper briefly discusses this. Following the state of the art in the dynamic analysis and identification of multiple hazardous faults, the general remarks and future directions for further research have been suggested at the end of this article.

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