TITLE:
Coupled Vibration Analysis of Vehicle-Bridge System Based on Multi-Boby Dynamics
AUTHORS:
Deshan Shan, Shengai Cui, Zhen Huang
KEYWORDS:
Cable-Stayed Bridge; Coupled Vibration; Co-Simulation; Multi-Body System Dynamics; Finite Element Method
JOURNAL NAME:
Journal of Transportation Technologies,
Vol.3 No.2A,
May
24,
2013
ABSTRACT:
For establishing the refined numerical simulation model for coupled vibration between vehicle and bridge, the refined three-dimensional vehicle model is setup by multi-body system dynamics method, and finite element method of dynamic model is adopted to model the bridge. Taking Yujiang River Bridge on Nanning-Guangzhou railway line in China as study background, therefined numerical simulation model of whole vehicle and whole bridge system for coupled vibration analysis is set up. The dynamic analysis model of the cable-stayed bridge is established by finite element method, and the natural vibration properties of the bridge are analyzed. The German ICE Electric Multiple Unit (EMU) train refined three-dimensional space vehicle model is set up by multi-system dynamics software SIMPACK, and the multiple non-linear properties are considered. The space vibration responses are calculated by co-simulation based on multi-body system dynamics and finite element method when the ICE EMU train passes the long span cable-stayed bridge at different speeds. In order to test if the bridge has the sufficient lateral or vertical rigidity and the operation stability is fine. The calculation results show: The operation safety can be guaranteed, and comfortindex is “excellent”. The bridge has sufficient rigidity, and vibration is in good condition.