Early fault detection in automotive ball bearings using the minimum variance cepstrum

Ball bearings in automotive wheels play an important role in a vehicle. They enable an automobile to run and simultaneously support the vehicle. Once faults are generated, even if they are small, they often grow fast even under normal driving condition and cause vibration and noise. Therefore, it is...

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Bibliographic Details
Published in:Mechanical systems and signal processing 2013-07, Vol.38 (2), p.534-548
Main Authors: Park, Choon-Su, Choi, Young-Chul, Kim, Yang-Hann
Format: Article
Language:English
Subjects:
Automobiles
Automotive ball bearings
Automotive components
Automotive engineering
Ball bearings
Bearings
Early fault detection
Faults
Minimum variance cepstrum
Variance
Vibration
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Summary:Ball bearings in automotive wheels play an important role in a vehicle. They enable an automobile to run and simultaneously support the vehicle. Once faults are generated, even if they are small, they often grow fast even under normal driving condition and cause vibration and noise. Therefore, it is critical to detect faults as early as possible to prevent bearings from generating harsh noise and vibration. How early faults can be detected is associated with how well a detecting method finds the information of early faults from measured signal. Incipient faults are so small that the fault signal is inherently buried by noise. Minimum variance cepstrum (MVC) has been introduced for the observation of periodic impulse signal under noisy environments. We are particularly focusing on the definition of MVC that goes back to the original definition by Bogert et al. in comparison with the recently prevalent definition of cepstral analysis. In this work, the MVC is, therefore, obtained by liftering a logarithmic power spectrum, and the lifter bank is designed by the minimum variance algorithm. Furthermore, it is also shown how efficient the method is for detecting periodic fault signal made by early faults by using automotive ball bearings, with which an automobile is equipped under running conditions. We were able to detect incipient faults in 4 out of 12 normal bearings which passed acceptance test as well as in bearings that were recalled due to noise and vibration. In addition, we compared the results of the proposed method with results obtained using other older well-established early fault detection methods that were chosen from 4 groups of methods which were classified by the domain of observation. The results demonstrated that MVC determined bearing fault periods more clearly than other methods under the given condition. ► We make a definition of the minimum variance cepstrum definitely and examine it mathematically. ► We compare the method to other fault detection methods: envelope analysis, moving window, wavelet analysis. ► We report an experimental set-up which enables ones to measure bearing faults signal under vehicle's operating condition. ► We report the results of detect incipient faults even in newly-made bearings.
ISSN:0888-3270
1096-1216
DOI:10.1016/j.ymssp.2013.02.017