Study on magnetic rheological mount properties of rough-rolled motor

Abstract

Abstract Magnetorheological mount is an effective semi-active suspension, which is widely used in vibration damping systems for automobiles and aerospace machinery. The magnetorheological mount converts electromagnetic energy into mechanical energy to control and vary the viscous damping and dynamic stiffness of the suspension. In this paper, a new lumped parameter model of magnetorheological mount is established, and on the basis of the total parameter model, the nonlinear mathematical equation of magnetorheological mount bond graph model is established. Finally, its dynamic performance is analyzed and predicted. Results show that under the condition of exciting current from 0-2A, magnetorheological mount damping Angle increases to 38 °, the maximum dynamic stiffness increases by 30%. The current effect significantly affects the dynamic characteristics of magnetorheological mount. The cross section area of inertial channel increases by 20%, the dynamic stiffness increases by 5.3%, and the damping Angle increases by 24%.