Application of maximum correlated Kurtosis deconvolution on bearing fault detection and degradation analysis
As the key techniques of condition-based maintenance, fault detection, diagnosis, and prognosis become the hot research topic in recent decades.Earlier the faults detected, the lead time will be enough for maintenance actions.The correct maintenance actions at correct time are determined by the good prognosis ability, in other words, accurate remaining useful life (RUL)prediction ability.For bearing degradation, the faults always lead to impulse shock of the bearing.The vibration signals of fault bearing are more impulsive than the normal beating.Based on this knowledge, maximum correlated Kurtosis deconvolution (MCKD) which has been used in gear fault detection is applied to bearing fault detection and degradation analysis.Compared to the minimum entropy deconvolution (MED), this method can enhance the impulsive signal of bearing fault more effective.This enables the bearing fault detection easier and can detect some incipient faults.For RUL prediction, it can fmd the degradation change point earlier.This is very useful for RUL prediction.Finally, an implemented bearing fault experiment and a run-to-failure bearing experiment are used to demonstrate the effectiveness of the MCKD in bearing fault detection and degradation analysis.
condition based maintenance fault diagnosis fault detection minimum entropy deconvolution maximum correlated Kurtosis deconvolution
Jianshe Kang Xinghui Zhang Hongzhi Teng Jianmin Zhao
Mechanical Engineering College, Shijiazhuang, 050003, China
国际会议
the International Conference Vibroengineering-2014
贵阳
英文
119-124
2014-11-07(万方平台首次上网日期,不代表论文的发表时间)