Finite Element Analysis of Radial Electromagnetic Force and Magnetic Flux Density of Electromagnetic Bearings

As a non-contact bearing, electromagnetic bearing is suspended in the air by magnetic force. In this paper, the iron loss and radial flux density are analyzed under different currents. Through a certain period of simulation, it is found that the greater the current in a certain range, the greater the radial electromagnetic force, in a certain range, the more the winding turns, the greater the radial electromagnetic force. The radial flux density increases with the current (within a certain range), and the tangential flux density tends to be the same under different currents. It will provide a reference for design of electromagnetic bearing.