Abstract:In studying axial hybrid magnetic bearing (HMB) for suspension in five degree of freedom (DOF), the relationship between radial electromagnetic force and magnetic bearing structural parameters and permanent magnet parameters should be calculated. In order to overcome the lack of analytical calculation model for radial electromagnet force of axial HMB, based on magnetic circuit analysis and calculation of magnetic conductance for each parts, the analytical calculation model for radial electromagnet force of axial HMB is proposed in this paper. The analytical formulation of radial electromagnetic force is derived by using virtual displacement method and demagnetization characteristics of the rare earth permanent magnet. It is found that the radial electromagnetic force increases with the radial displacement increasing approximately in linear relationship, and the radial force and stiffness decreases with the axial gap increasing. The radial electromagnetic force increased and then saturated with increasing permanent magnet effective length. The model of axial HMB is simulated by finite-element method software and the simulation results are basically in agreement with the calculated results.
张云鹏, 刘淑琴, 李红伟, 范友鹏. 基于磁路分析的轴向混合磁轴承径向承载力解析计算[J]. 电工技术学报, 2012, 27(5): 137-142.
Zhang Yunpeng, Liu Shuqin, Li Hongwei, Fan Youpeng. Calculation of Radial Electromagnetic Force of Axial Hybrid Magnetic Bearing Based on Magnetic Circuit Analysis. Transactions of China Electrotechnical Society, 2012, 27(5): 137-142.
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