Research on the Vibration Characteristics of Rolling Bearing Based on ANSYS Software_Vol. 3 No. 2 (JIEM 2025)_Journal of Industry and Engineering Management (ISSN: 2959-0612)

Home > Journal of Industry and Engineering Management (ISSN: 2959-0612) > Vol. 3 No. 2 (JIEM 2025) >

Research on the Vibration Characteristics of Rolling Bearing Based on ANSYS Software

DOI: https://doi.org/10.62517/jiem.202503208

Author(s)

Yongmei Wang1,*, Changwei Miao2, Xiaodong Zhou2

Affiliation(s)

1School of Physics and Telecommunication Engineering, Zhoukou Normal University, Zhoukou, Henan, China 2School of Mechanical and Electrical Engineering, Zhoukou Normal University, Zhoukou, Henan, China *Corresponding Author

Abstract

Rolling bearings are a key component in the operation of numerical control machine tool, directly affecting the reliability and safety of the entire equipment. With the rapid development of industrialization in our country, high-performance rolling bearings are becoming urgently needed products in the field of industrial manufacturing, and the study of vibration characteristics is related to the quality issues and safety performance of the bearings. This paper takes deep groove ball bearing SKF6180 as an example to conduct modal and forced excitation vibration analysis of rolling bearings. The natural frequencies of the rolling bearings under free and constrained conditions are obtained. Harmonic response vibration analysis of the bearing is carried out to obtain the frequency amplitude curve of the bearing under external excitation load, providing a theoretical foundation for improving the service life of bearings and the stability of mechanical structures.

Keywords

Rolling Bearing; Finite Element Method; Modal Analysis; Vibration Characteristics

References

[1]Liu J, Shao Y M. Overview of dynamic modelling and analysis of rolling element bearings with localized and distributed faults [J]. Nonlinear Dynamics, 2018, 93(4): 1765-1798. [2]Patel S, Shah U, Khatri B, et al. Research progress on bearing fault diagnosis with localized defects and distributed defects for rolling element bearings [J]. Noise& Vibration Worldwide, 2022, 53(7 8): 352 365. [3]He D, Yang Y, Xu H Y, et al. Dynamic analysis of rolling bearings with roller spalling defects based on explicit finite element method and experiment [J]. Journal of Nonlinear Mathematical Physics, 2022, 29(2): 219-243. [4]Jiang Y C, Huang W T, Wang W J, et al. Acomplete dynamics model of defective bearings considering the three-dimensional defect area and the spherical cage pocket [J]. Mechanical Systems and Signal Processing, 2023, 185:109743. [5]Cao H R, Su S M, Jing X, et al. Vibration mechanism analysis for cylindrical roller bearings with single/multi defects and compound faults [J]. Mechanical Systems and Signal Processing, 2020, 144: 106903. [6]Luo M L, André H, Guo Y, et al. Analysis of contact behaviours and vibrations in a defective deep groove ball bearing [J]. Journal of Sound and Vibration, 2024, 570:118104. [7]Ma H, Li H F, Yu K, et al. Dynamic modeling and vibration analysis of rolling bearings with local fault [J]. Journal of Northeastern University (Natural Science), 2020, 41(3): 343-348. (in Chinese) [8]Tu W B, Yuan X W, Yang J W, et al. Research on dynamic characteristics of rolling bearing under different component fault conditions [J]. Chinese Journal of Engineering Design, 2023, 30(1): 82-92. (in Chinese) [9]Yan H P, Lang S, Qin Z Y. Simulation analysis of vibration characteristics of hybrid ceramic ball bearings [J]. Machine Tool & Hydraulics, 2023, 51(13): 172-177. (in Chinese) [10]Wang X J. Vibration response mechanism of high-speed bearing fault based on explicit dynamics [J]. Plant Maintenance Engineering, 2021(10): 67-69.(in Chinese) [11]Li L, Wang Y L, Yang Z J. Transient dynamics and modal analysis of rocker shell of shearer [J]. Industry and Mine Automation, 2018, 44 (06): 86-89. (in Chinese) [12]Li J Y, Wang Y L, Yang Z J. Fatigue and modal analysis of guided sliding boots of shearer [J]. Industry and Mine Automation, 2017, 43 (11): 54-57.(in Chinese) [13]Zhang G W, Hou P P, Li J Q, Ma J Q. Study on longitudinal vibration characteristics of bha with rotary guided drilling tool [J]. Coal Mine Chinery, 2019, 40 (11): 46-49. (in Chinese) [14]Wang D S, Chen X J, Shen D L. Analysis of modal and vibration response of gearbox box based on ANSYS workbench [J]. Coal Mine Chinery, 2020, 41(07): 69-72.(in Chinese)