Investigation of the effect of rotation speed on the torsional vibration of transmission system

Investigation of the effect of rotation speed on the torsional vibration of transmission system

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During the operation of vehicles, it is found that dramatic vibration occurs when the engine rotation speed reaches a certain value.In order to study this phenomenon, a theoretical model of automobile transmission system is developed in this paper.This model includes four sub-models of gearbox, drive shafts, main reducer and rear axle, which take into account the inhomogeneous transmission speed of universal joint of drive shafts as well as the effect of time-varying and nonlinear factors of main reducer operation igloo white gears.

In this model, the transmission system is an elastic system characterized by mass, stiffness and damping.The torsional vibration responses of transmission system are simulated, and the natural frequencies of transmission system and corresponding mode shapes are calculated using this model.Simulation results indicate that the maximum amplitude of torsional vibration response appears at a certain speed.

On the other hand, experimental investigation on the effect of rotation speed on torsional vibration is conducted to verify the theoretical model.Experimental results also show there is welding sweater the maximum amplitude of torsional vibration response appearing at a certain speed.The results of FEA indicate that the excitation frequencies of drive shaft are quite close to the first order natural frequency of drive shaft, and the resonant vibration of drive shaft would induce the resonant vibration of transmission system, given that the first order natural frequency of drive shaft is quite close to the third order natural frequency of transmission system.

In particular, it is discovered that deviations between the rotation speeds corresponding to the maximum amplitude of angular displacement and the rotation speeds corresponding to the maximum amplitude of angular acceleration exist for both theoretical simulation and experimental measurements.