Abstract
The periodic impulse feature is the most typical fault signature of the vibration signal from fault rolling element bearings (REBs). However, it is easily contaminated by noise and interference harmonics. In order to extract the incipient impulse feature from the fault vibration signal, this paper presented an autocorrelation function periodic impulse harmonic to noise ratio (ACFHNR) index based on the SVD-Teager energy operator (TEO) method. Firstly, the Hankel matrix is constructed based on the raw vibration fault signal of rolling bearing, and the SVD method is used to obtain the singular components. Afterwards, the ACFHNR index is employed to measure the abundance of the periodic impulse fault feature for the singular components, and the component with the largest ACFHNR index value is extracted. Moreover, the properties of the ACFHNR index are demonstrated by simulations and the full life cycle of the experiment, showing its superiority over the traditional kurtosis and root mean square (RMS) index for extracting and detecting incipient periodic impulse features. Finally, the Teager energy operator spectrum of the extracted informative signal is gained. The simulation and experimental results indicated that the proposed ACFHNR index based method can effectively detect the incipient fault feature of the rolling bearing, and it shows better performance than the kurtosis and RMS index based methods.
Highlights
Rolling element bearings have been widely used in scenarios such as wind turbines, high-speed railways, and precision machine tools
Under the motivation of the above analysis, a method combined the ACFHNR index based on the singular value decomposition (SVD) and Teager energy operator (TEO) demodulation technology is proposed for the early fault diagnosis of rolling bearings
The isis often contaminated by noise and interference harmonics
Summary
Rolling element bearings have been widely used in scenarios such as wind turbines, high-speed railways, and precision machine tools. In order to extract the impulse fault feature from the vibration signals of the rolling bearing, it is very important to select the effective singular components for reconstructing a new signal when the SVD method is applied. They may not be able to extract the weak fault feature effectively To solve this problem, one study [5] proposed kurtosis to quantify the impulsive feature of the vibration signal, and the simulation and experiment results indicate that the de-noising method is successful in both the frequency domain and time domain for fault identification. According to the proposed index, the ACFHNR based SVD-Teager energy operator (TEO) method for extracting the incipient fault feature from the vibration signal of the rolling bearing is presented.
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