A complete dynamics model of defective bearings considering the three-dimensional defect area and the spherical cage pocket. (15th February 2023)
- Record Type:
- Journal Article
- Title:
- A complete dynamics model of defective bearings considering the three-dimensional defect area and the spherical cage pocket. (15th February 2023)
- Main Title:
- A complete dynamics model of defective bearings considering the three-dimensional defect area and the spherical cage pocket
- Authors:
- Jiang, Yunchuan
Huang, Wentao
Wang, Weijie
Peng, Gaoliang - Abstract:
- Highlights: Based on Gupta's bearing dynamics model, a complete dynamics model of the defective bearing was developed and compared with the traditional lumped-parameter model. The cage of the bearing is guided by the rolling element, and the interaction between the rolling element and the spherical pocket of the cage is fully considered. The motion path of the rolling element in the defect area is solved based on the mechanical mechanism and three-dimensional geometric relationship without pre-planning. The effect of raceway defect on cage stability is studied and the stability index is quantified, and the results showed that the raceway defect significantly reduces cage stability. Abstract: In current studies of dynamics of the defective bearing, the lumped-parameter model of the rolling element bearing is widely used, which is a simplified bearing vibration model consisting of the rigid masses connected by springs and dampers and is not a complete bearing dynamics model. In this paper, based on Gupta's bearing dynamics model, a complete dynamics model of the defective bearing is developed. The dynamics model includes the translational and rotational motion of all components in the bearing and fully considers the contact and friction forces between each component, especially the interaction between the rolling element and spherical pocket of the cage when the cage is guided by the rolling element. Different from the lumped-parameter model which needs to pre-plan the motionHighlights: Based on Gupta's bearing dynamics model, a complete dynamics model of the defective bearing was developed and compared with the traditional lumped-parameter model. The cage of the bearing is guided by the rolling element, and the interaction between the rolling element and the spherical pocket of the cage is fully considered. The motion path of the rolling element in the defect area is solved based on the mechanical mechanism and three-dimensional geometric relationship without pre-planning. The effect of raceway defect on cage stability is studied and the stability index is quantified, and the results showed that the raceway defect significantly reduces cage stability. Abstract: In current studies of dynamics of the defective bearing, the lumped-parameter model of the rolling element bearing is widely used, which is a simplified bearing vibration model consisting of the rigid masses connected by springs and dampers and is not a complete bearing dynamics model. In this paper, based on Gupta's bearing dynamics model, a complete dynamics model of the defective bearing is developed. The dynamics model includes the translational and rotational motion of all components in the bearing and fully considers the contact and friction forces between each component, especially the interaction between the rolling element and spherical pocket of the cage when the cage is guided by the rolling element. Different from the lumped-parameter model which needs to pre-plan the motion path of the rolling element in the defect area, the dynamics model can solve the motion path directly based on the three-dimensional geometric relationship and mechanical mechanism between the rolling element and defect area. The vibration responses of the defective bearing simulated by the dynamics model are in good agreement with the measured vibration responses in the time, frequency, and time-frequency domain, and the double-impulse phenomenon exists in the vibration response of the defective bearing with either outer or inner raceway defect, and the average value of the dynamically varying cage rotation speed solved by the dynamics model is consistent with the theoretical calculation, which verifies the accuracy of the model. The effect of raceway defects on the cage motion state is also studied, and the cage stability index is given by combining the cage whirl instantaneous angular velocity and cage rotation angular velocity, and the cage stability index is quantified and analyzed. The analysis results show that the bearing with inner raceway defects has worse cage stability than the bearing with outer raceway defects, and there is no obvious regularity for the effect of changes in the geometry of the defect area on cage stability. … (more)
- Is Part Of:
- Mechanical systems and signal processing. Volume 185(2023)
- Journal:
- Mechanical systems and signal processing
- Issue:
- Volume 185(2023)
- Issue Display:
- Volume 185, Issue 2023 (2023)
- Year:
- 2023
- Volume:
- 185
- Issue:
- 2023
- Issue Sort Value:
- 2023-0185-2023-0000
- Page Start:
- Page End:
- Publication Date:
- 2023-02-15
- Subjects:
- Rolling element bearing -- Dynamics model -- Vibration response -- Raceway defect -- Double-impulse phenomenon -- Cage stability
Structural dynamics -- Periodicals
Vibration -- Periodicals
Constructions -- Dynamique -- Périodiques
Vibration -- Périodiques
Structural dynamics
Vibration
Periodicals
621 - Journal URLs:
- http://www.sciencedirect.com/science/journal/08883270 ↗
http://firstsearch.oclc.org ↗
http://firstsearch.oclc.org/journal=0888-3270;screen=info;ECOIP ↗
http://www.elsevier.com/journals ↗ - DOI:
- 10.1016/j.ymssp.2022.109743 ↗
- Languages:
- English
- ISSNs:
- 0888-3270
- Deposit Type:
- Legaldeposit
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library DSC - 5419.760000
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