A practical methodology for enhancement and detection of transient faults in a gearbox without prior fault feature information

Zhou Xiaoqin; He Xiuzhi; Peng Dikang; Hou Yixuan; Liu Qiang

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A practical methodology for enhancement and detection of transient faults in a gearbox without prior fault feature information

机译：用于增强和检测变速箱中的瞬态故障的实用方法，而无需现有故障特征信息

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摘要

Gear fault diagnosis has been the focus of research in both academia and industry in the past. Due to the complicated structures of gearboxes, the vibration signals collected from the gearbox casings are comprised of multiple sources, in which the fault-related components may be easily masked by the Gaussian and non-Gaussian noises (e.g. random external shocks and gear meshing harmonics). Moreover, fault feature frequencies of interest cannot always be obtained in advance in practical applications. Therefore, it is necessary to choose an appropriate signal processing method for gear fault diagnosis. In this study, a new practical methodology is proposed to extract the transient fault features from a gearbox vibration signal corrupted by complicated interference without prior fault feature information. In the proposed method, a modified self-adaptive noise cancellation (MSANC) algorithm is first developed for removing the interferences of gear meshing harmonics adaptively, which can overcome the shortcomings of the traditional SANC in parameter selection and convergence performance. Based on the de-noised signal, a cyclic spectral analysis tool called the fast spectral correlation and assisted by the multipoint optimal minimum entropy deconvolution adjusted algorithm is then applied to enhance and detect the certain and potential gear faults. The effectiveness of the proposed method is demonstrated by a numerical simulation and two experimental scenarios that are compared to an advanced blind optimal demodulation band selection technique. The results reveal that the proposed methodology has good capability to detect mono- and multiple gear faults under complicated interferences, and can be regarded as an efficient method for practical gear fault diagnosis, especially for applications where the fault feature frequencies are unknown in advance.

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来源
《Measurement Science & Technology》 |2021年第3期|共19页
作者
Zhou Xiaoqin; He Xiuzhi; Peng Dikang; Hou Yixuan; Liu Qiang;
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作者单位

Jilin Univ Sch Mech &

Aerosp Engn Changchun 130025 Peoples R China;

Jilin Univ Sch Mech &

Aerosp Engn Changchun 130025 Peoples R China;

Univ New South Wales Sch Mech &

Mfg Engn Sydney NSW 2052 Australia;

Katholieke Univ Leuven Dept Mech Engn B-3001 Leuven Belgium;

Jilin Univ Sch Mech &

Aerosp Engn Changchun 130025 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类仪器、仪表;
关键词
gear fault diagnosis; multiple faults; weak fault enhancement; SANC; Fast-SC; MOMEDA;

机译：齿轮故障诊断;多重故障;弱故障增强;SANC;FAST-SC;MOMEDA;

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1. Online condition diagnosis for a two-stage gearbox machinery of an aerospace utilization system using an ensemble multi-fault features indexing approach [J] . Min ZHOU, Ke WANG, Yang WANG, 中国航空学报（英文版） . 2019,第005期
2. Low-rank enhanced convolutional sparse feature detection for accurate diagnosis of gearbox faults [J] . Zhaohui Du, Xuefeng Chen, Han Zhang, Mechanical systems and signal processing . 2021,第Mara期

机译：低级别增强型卷积稀疏特征检测，用于精确诊断变速箱故障
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机译：基于小波的暂态稀疏表示及其在齿轮箱故障特征提取中的应用
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机译：新型瞬态故障检测电路，具有增强型大容量内置电流传感器和低功耗睡眠模式
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机译：使用混合信号处理方法进行齿轮箱故障诊断的信号瞬变的早期检测
6. Improved methods of vibration measurement, gear fault detection and bearing fault detection for gearbox diagnostics. [D] . Limmer, Joel David. 1997

机译：振动测量，齿轮故障检测和轴承故障检测的改进方法，用于齿轮箱诊断。
7. A Novel Fault Feature Recognition Method for Time-Varying Signals and Its Application to Planetary Gearbox Fault Diagnosis under Variable Speed Conditions [O] . Yong Lv, Bingqi Pan, Cancan Yi, 2019

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8. Novel transient-fault detection circuit featuring enhanced bulk built-in current sensor with low-power sleep-mode [O] . R. Possamai Bastos, F. Sill Torres, G. Di Natale, 2012

机译：新型瞬态故障检测电路，具有增强型大容量内置电流传感器，具有低功耗休眠模式
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机译：用于直升机齿轮箱故障诊断振动特性异常的无监督模式分类器

A practical methodology for enhancement and detection of transient faults in a gearbox without prior fault feature information

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