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- Title
Study on stability and bifurcation of electromagnet-track beam coupling system for EMS maglev vehicle.
- Authors
Chen, Xiaohao; Ma, Weihua; Luo, Shihui
- Abstract
The stability and bifurcation behavior of the electromagnet-track beam coupling system of the electromagnetic suspension maglev vehicle are studied by the theoretical and numerical analyses. The stability domain of three key dynamics parameters of the track beam as well as the Lyapunov coefficient at the degenerated equilibrium point is calculated. The topological structure of the solution to the coupling system near the Bautin bifurcation point is determined. The results show that in the engineering practice, the intermediate frequency should be avoided in the natural frequency of the track beam; when a low frequency is taken, it should be reduced as much as possible; when a high frequency is taken, it should be increased as much as possible and the damping ratio should also be increased, so that the system can remain stable while a lighter-weight track beam is used, thereby reducing the engineering costs. Besides, when the parameters are near the Bautin bifurcation point, the system will have complex dynamics behaviors. Within a certain parameter range, multiple stable and unstable limit cycles exist simultaneously, so that the system tends to have different stable solutions under different initial disturbances.
- Subjects
MAGNETIC levitation vehicles; LIMIT cycles; MAGNETIC coupling; AUTOMOBILE springs &; suspension; NUMERICAL analysis; RAILROAD rails
- Publication
Nonlinear Dynamics, 2020, Vol 101, Issue 4, p2181
- ISSN
0924-090X
- Publication type
Article
- DOI
10.1007/s11071-020-05917-8