D. H. Pandya scite author profile

In this paper, the dynamic behavior of a high-speed rotating shaft under the combined localized defects on outer race, inner race and rolling element has been analyzed. An adaptive algorithm based on wavelet packet decomposition and Hilbert transform is used to extract the bearing fault characteristic component from the vibration signals. The reverse Biorthogonal wavelet 5.5 is considered as the most appropriate wavelet for decomposing the bearing vibration signal, on the basis of the maximum energy-to-Shannon entropy ratio criterion. The imperial trend suggested in diagnosing the combined localized defects of rolling bearing is based on experimental analysis at various rotor speeds. The results are presented in the form of envelope analysis, bifurcation diagrams and Poincaré maps that show the appearance nonlinearity in the dynamic response due to the rotor speed and the presence of combined localized defect. Significant peaks are reported at BPFO, BSF, FTF and modulation of BPFI with rotational frequency in envelope spectrum. Fundamental train frequency also shows noticeable excitation. A modified mathematical model shows good agreement with experimental results.

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Computational Investigation of Chatter for Face Mill Tool on VMC Using Different Shim Material with Experimental Validation

Gandhi¹,

Pandya²

2021

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Experimental investigation of cylindrical bearing fault diagnosis with SVM

Parmar

Pandya

2021

Materials Today: Proceedings

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D. H. Pandya

Fault diagnosis of rolling element bearing with intrinsic mode function of acoustic emission data using APF-KNN

Fault diagnosis of rolling element bearing by using multinomial logistic regression and wavelet packet transform

Nonlinear dynamic analysis of high speed bearings due to combined localized defects

Computational Investigation of Chatter for Face Mill Tool on VMC Using Different Shim Material with Experimental Validation

Experimental investigation of cylindrical bearing fault diagnosis with SVM

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