Sage Journals: Discover world-class research

Abstract

Magnetic liquid double-suspension bearing (MLDSB) is a novel type of bearing that significantly enhances load-bearing stiffness and stability by integrating an electromagnetic suspension system with a hydrostatic support mechanism. However, due to its unique structural design, a small clearance between the rotor and stator makes it susceptible to rub impact, leading to rotor instability and chaotic phenomena. This paper aims to investigate the influence of rub-impact faults on the bifurcation behavior of MLDSB systems and validate theoretical simulations through experimental verification. First, the dynamic equations of the rotor under rub-impact faults are derived and simplified. Then, a numerical integration method is used to study the effects of different structural and operational parameters on the bifurcation behavior, resulting in bifurcation diagrams and phase plots. Simulation analysis explores the system's periodic distribution under various parameter combinations, and the stable operating ranges for the system under dual-parameter combinations are determined. Finally, the simulation results are compared with experimental data to verify the validity of the simulations. The findings provide theoretical insights for the design and application of MLDSBs and offer a new perspective for studying chaotic dynamics.

Keywords

Magnetic liquid double-suspension bearing chaotic dynamics rub impact bifurcation numerical simulation

Get full access to this article

View all access options for this article.

References

Jie

Wang

Liu

. Analysis and optimization of heavy-load magnetic bearings in mechanics and thermal characteristics. Chin J Turbomachin 2018; 60: 62–68.

Yan-hua

Li-hua

, et al. Steady state bearing behavior and control of hybrid foil-magnetic bearings. Tribology 2013; 33: 49–56.

Zhao

Han

Wang

, et al. Decoupling control of multi-DOF supporting system of MLDSB. Appl Sci 2021; 11: 7239.

Chai

Shi

Chen

, et al. Decoupling control of radial 4 degree of freedom system of magnetic-liquid double suspension bearing based on generalized extended state observer. Rev Sci Instrum 2023; 94.

Zhao

Zhang

, et al. Research on magneto-hydraulic proportional control strategy for single degree of freedom supporting system of magnetic-liquid double suspension bearing. Rev Sci Instrum 2022; 93.

Dong

Kong

Liu

, et al. Magnetic levitation system simulating and its chaos research. J Syst Simul 2020; 29: 572–580.

Prasad

Narayanan

. Power-electronic-controlled electromagnetic axial bearings for high-speed electrical machines: status review and design example. In: 2022 IEEE 10th power India international conference (PIICON). 2022, pp. 1–6. IEEE.

Gao

Feng

, et al. Research progress of hydrostatic bearing and hydrostatic–hydrodynamic hybrid bearing in high-end computer numerical control machine equipment. Int J Prec Eng Manuf 2023; 24: 1053–1081.

Michalec

Svoboda

Křupka

, et al. A review of the design and optimization of large-scale hydrostatic bearing systems. Eng Sci Technol 2021; 24: 936–958.

10.

Jung

Kim

Ryu

, et al. On the performance of hydrostatic journal bearings in air, water, and liquid nitrogen: Measurements and predictions. J Eng Gas Turbines Power 2023; 145.

11.

Ehehalt

Alber

Markert

, et al. Experimental observations on rotor-to-stator contact. J Sound Vib 2019; 446: 453–467.

12.

Kostyuk

Shatokhin

Volokhovskaya

OJTE

. Specific features relating to the motion of a rotor with rubbing against the stator. Therm Eng 2013; 60: 628–634.

13.

Zhao

Xing

, et al. Impact-rubbing dynamic behavior of magnetic-liquid double suspension bearing under different protective bearing forms. Processes 2021; 9.

14.

Daliri

Jalali-Vahid

Rahnejat

. Magneto-hydrodynamics of couple stress lubricants in combined squeeze and shear in parallel annular disc viscous coupling systems. Proc Inst Mech Eng J: J Eng Tribol 2015; 229: 578–596.

15.

Luo

Liu

, et al. Nonlinear dynamic behaviors of a bolted joint rotor system supported by ball bearings. Arch Appl Mech 2019; 89: 2381–2395.

16.

Zhao

Wang

, et al. Influence of oil sealing belt on dynamic and static characteristic of closed type liquid hydrostatic slide. Mach Tool Hydraul 2018; 46: 81.

17.

Ebrahimi

Ghayour

Khanlo

HMJM

, et al. Nonlinear dynamic analysis and experimental verification of a magnetically supported flexible rotor system with auxiliary bearings. Mech Mach Theory 2018; 121: 545–562.

18.

Vakilian

Nassab

SAG

Kheirandish

. Study of inertia effect on thermohydrodynamic characteristics of Rayleigh step bearings by CFD method. Mech Ind 2013; 14: 275–285.

19.

Kakoty

Majumdar

. Effect of fluid inertia on stability of oil journal bearings. J Tribol 2000; 122: 741–745.

20.

Tang

Yang

Han

, et al. Influence of friction coefficient on rubbing behavior of oil bearing rotor system. Vibroeng Proc 2015; 5: 569–574.

Study on chaotic dynamic behavior of magnetic liquid double-suspension bearings under rub-impact faults

Abstract

Keywords

Get full access to this article

References