Study on dynamic characteristics of acceleration process of spherical hybrid sliding bearings rotor system
Industrial Lubrication and Tribology
ISSN: 0036-8792
Article publication date: 14 March 2024
Issue publication date: 15 April 2024
Abstract
Purpose
The transient loads on the spherical hybrid sliding bearings (SHSBs) rotor system during the process of accelerating to stable speed are related to time, which exhibits a complex transient response of the rotor dynamics. The current study of the shaft center trajectory of the SHSBs rotor system is based on the assumption that the rotational speed is constant, which cannot truly reflect the trajectory of the rotor during operation. The purpose of this paper truly reflects the trajectory of the rotor and further investigates the stability of the rotor system during acceleration of SHSBs.
Design/methodology/approach
The model for accelerated rotor dynamics of SHSBs is established. The model is efficiently solved based on the fourth-order Runge–Kutta method and then to obtain the shaft center trajectory of the rotor during acceleration.
Findings
Results show that the bearing should choose larger angular acceleration in the acceleration process from startup to the working speed; rotor system is more stable. With the target rotational speed increasing, the changes in the shaft trajectory of the acceleration process are becoming more complex, resulting in more time required for the bearing stability. When considering the stability of the rotor system during acceleration, the rotor equations of motion provide a feasible solution for the simulation of bearing rotor system.
Originality/value
The study can simulate the running stability of the shaft system from startup to the working speed in this process, which provides theoretical guidance for the stability of the rotor system of the SHSBs in the acceleration process.
Keywords
Citation
Xue, W., Shen, J. and Fan, Y. (2024), "Study on dynamic characteristics of acceleration process of spherical hybrid sliding bearings rotor system", Industrial Lubrication and Tribology, Vol. 76 No. 3, pp. 365-373. https://doi.org/10.1108/ILT-10-2023-0315
Publisher
:Emerald Publishing Limited
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