The work presented is of a study of torsional vibrations of a driveline under static torque and excited by engine torque fluctuations. It includes the design of an experimental set-up and a computer software to predict dynamic behaviour and seek efficient technical solutions. A finite element model is used to study current systems and perform transient analyses. Basic linear elements are used and non-linearities such as a multi-staged clutch with dry friction and gear backlash are taken into account. The time response is calculated and a pseudo-modal method is used. An experimental set-up of the whole driveline has been designed and built to allow simulation of the basic torsional phenomena occurring on the vehicle driveline under input torque from 0 to 200 Nm, and, moreover, to validate numerical models. Furthermore, prediction and experiments on two new vehicles are in quite good agreement.
Vehicle driveline dynamic behaviour: experimentation and simulation
Journal of Sound and Vibration ; 218 , 1 ; 133-157
1998
25 Seiten, 22 Bilder, 1 Tabelle, 23 Quellen
Article (Journal)
English
Vehicle driveline dynamic behaviour: Experimentation and simulation
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