Ying Tang and Qiao Sun, Rolling Element Bearing Diagnostics by Combination of Envelope Analysis and Wavelet Transform, J. Univ. Sci. Technol. Beijing, 8(2001), No. 1, pp. 69-74.
Cite this article as:
Ying Tang and Qiao Sun, Rolling Element Bearing Diagnostics by Combination of Envelope Analysis and Wavelet Transform, J. Univ. Sci. Technol. Beijing, 8(2001), No. 1, pp. 69-74.
Ying Tang and Qiao Sun, Rolling Element Bearing Diagnostics by Combination of Envelope Analysis and Wavelet Transform, J. Univ. Sci. Technol. Beijing, 8(2001), No. 1, pp. 69-74.
Citation:
Ying Tang and Qiao Sun, Rolling Element Bearing Diagnostics by Combination of Envelope Analysis and Wavelet Transform, J. Univ. Sci. Technol. Beijing, 8(2001), No. 1, pp. 69-74.
Mechanical Engineering School, University of Science and Technology Beijing, Beijing 100083, China
Department of Mechanical Engineering, University of Calgary Calgary Alberta T2N 1N4, Canada
中文摘要
Rolling element-bearing diagnostics has been studied over the last thirty years, and envelope analysis is widely recognized as being the best approach for detection and diagnosis of rolling element bearing incipient failure. But one of the on-going difficulties with envelope technique is to determine the best frequency band to envelop. Here, wavelet transform technique is introduced into envelope analysis to solve the problem by capturing bearing defects-sensory scales (i.e. frequency bands). A modulated Gaussian function is chosen to be the analytical wavelet because it coincides well with bearing defect-induced vibration signal patterns. Vibration signals measured from railway bearing tests were studied by the proposed method. Cases of bearings with single and multiple defects on inner and outer race under different testing conditions are presented. Experimental results showed that the proposed method allowed a more accurate local description and separation of transient signal part, which were caused by impacts between defects and the mating surfaces in the bearing. The combination method provides an effective signal detection technique for rolling element-bearing diagnostics.
Rolling element-bearing diagnostics has been studied over the last thirty years, and envelope analysis is widely recognized as being the best approach for detection and diagnosis of rolling element bearing incipient failure. But one of the on-going difficulties with envelope technique is to determine the best frequency band to envelop. Here, wavelet transform technique is introduced into envelope analysis to solve the problem by capturing bearing defects-sensory scales (i.e. frequency bands). A modulated Gaussian function is chosen to be the analytical wavelet because it coincides well with bearing defect-induced vibration signal patterns. Vibration signals measured from railway bearing tests were studied by the proposed method. Cases of bearings with single and multiple defects on inner and outer race under different testing conditions are presented. Experimental results showed that the proposed method allowed a more accurate local description and separation of transient signal part, which were caused by impacts between defects and the mating surfaces in the bearing. The combination method provides an effective signal detection technique for rolling element-bearing diagnostics.