422 / 2022-07-31 22:15:42
Nonlinear vibration of rotor system with dynamic angular misalignment of ball bearing
Dynamic misalignment; Ball bearing-rotor system; Nonlinear vibration; Bifurcation
Abstract Accepted
Pengfei Wang / Northeastern University
Yang Yang / China North Vehicle Research Institute
Hongyang Xu / School of Mechanical Engineering and Automation; Northeastern University
Hui Ma / Northeastern University
Aiming at the nonlinear vibration problem caused by dynamic misalignment of rolling bearings in the rotor system, a rotor dynamic model with dynamic misalignment of rolling bearings is established, and the effects of the dynamic misalignment of single and two bearings and the phase relationship of two dynamic misalignment bearings on the vibration characteristics of the rotor system are studied. The effects of bearing clearance, raceway curvature radius coefficient and the number of balls on the nonlinear vibration response of dynamically misaligned bearing-unbalanced rotor system are further analysed. The results show that the dynamic misalignment of the bearing can excite the rotor vibration by double rotating frequency, and lead to the increase of the rotor resonance speed and the enhancement of the hardening-type nonlinearity characteristics of the system. The influence of dynamic misalignment of two bearings with opposite phase on rotor resonance is greater than that of the same phase. The stability of the system can be improved by decreasing the bearing clearance and increasing the curvature radius coefficient. Increasing the number of balls leads to the increase of resonance peak and the enhancement of hardening-type nonlinearity characteristics. The results can provide some basis for dynamic design, health monitoring and fault diagnosis of bearing-rotor system.
Important Date
  • Conference Date

    Nov 01

    2022

    to

    Nov 03

    2022

  • Oct 30 2022

    Draft paper submission deadline

  • Nov 09 2022

    Registration deadline

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Qingdao University of Technology