On the basis of geometric description about the turning procedure of a shaft,a dynamic model of shaft-lathe coupled vibration is established by differentialvariation-principle,and a reduced model with 4 degrees of freedom is developed by using truncated spectra method.

In the paper,based on the theory and method of vehicle-bridge interaction proposed in Ref,the dynamic responses of a schemed Yangtze-River cable-stayed bridge with various vertical girder curve in Nanjing on Jing-Hu high-speed railway,which is of 84+160+488+488+160+84m span,under moving ICE hith-speed trains,are calculated.

With the finite element method,the train-bridge coupling vibration analysis model of a Yangtze R.

A program for spatial analysis of train-bridge coupling vibration is developed on the basis of wheel-rail contact creep theory.

Comparison shows that when the factor of TICVV is involved into consideration or not,the responses of vehicle-bridge coupling vibration are quite different.

Based on the principle of vehicle-bridge coupling vibration, the vehicle-bridge vibration system is divided into two sub-system of vehicle vibration system and bridge vibration system.

By using a numerical analysis method for the highway vehicle-bridge coupling vibration based on the general finite element analysis software ANSYS,the factors having influence on the coupling vibration of the curved bridge are analyzed and the coupling vibration of both the straight bridge and curved bridge is respectively calculated after the unevenness of the deck is taken into account.

Influence of bridge surface roughness on vehicle-bridge coupled vibration of long-span suspension bridge