Analysis of tilting-pad thrust bearing static instability and lubrication performance under the bistability
Abstract
Purpose
The purpose of this paper is to analyze the problems of tilting-pad thrust bearing static instability and lubrication performance under static bistability.
Design/methodology/approach
The static equilibrium state of tilting-pad thrust bearing is analyzed, and key parameters are extracted from the general lubrication model. Then, a distribution area of bearing static equilibrium points is achieved by solving the model. The area is divided into three sub-areas which represent monostabillity, bistability and instability, and an unstable boundary of the area is discovered. By these findings, a reversible lubrication failure phenomenon is explained. A calculation method is proposed to obtain bearing lubrication performance under the bistability.
Findings
The variation of working conditions can lead to migration of unstable boundary and static instability. After resuming the working conditions, unstable boundary will resume in situ, and the bearing will operate steadily again. Moreover, there is a big difference between the two groups of lubrication performance solutions under the bistability.
Practical implications
The static stability acceptance test of tilting-pad thrust bearing should be implemented under start–stop, accidental excitation and other conditions before service to prevent such lubrication failure phenomenon. Moreover, fulcrum position of the bearing pad should be kept away from the bistable area.
Originality/value
This paper has preliminarily revealed a static instability mechanism of tilting-pad thrust bearing, analyzed bistability lubrication performance and proposed some suggestions to improve the bearing stability.
Keywords
Acknowledgements
This paper was supported by a grant from the National Basic Research Development Program of China (973 Program) (No. 2009CB724304-2).
Citation
Wu, O., Xiaoyang, Y. and Qian, J. (2014), "Analysis of tilting-pad thrust bearing static instability and lubrication performance under the bistability", Industrial Lubrication and Tribology, Vol. 66 No. 5, pp. 584-592. https://doi.org/10.1108/ILT-08-2012-0069
Publisher
:Emerald Group Publishing Limited
Copyright © 2014, Emerald Group Publishing Limited