Dynamic Analysis of the High Speed Train-Track Spatial Nonlinear Coupling System Under Track Irregularity Excitation

Track irregularity is the main factor that affects the safety and comfort of high-speed railway. It is important to study the influence of the track irregularity on the safety service of high speed train-track coupling system. In this paper, a vehicle-track spatial nonlinear coupled system dynamics model is developed with FEM. The model includes vehicle subsystem and track subsystem, which are coupled by wheel-rail interface. The vehicle subsystem is a 31-DOF spatial vehicle model, and the track subsystem is a three-dimensional slab track model composed of the rail, rail pad and track slab. Considering wheel tread profile and rail head profile, the wheel-rail spatial contact geometry relationship is established, and the Trace method and the Minimum distance method are used to search for wheel-rail contact points. Considering the nonlinear contact between the wheel and the rail, a numerical approach is presented, where the Trace method is embedded into the algorithm for solving the vehicle-track nonlinear coupling dynamics equation by cross iteration, realizing searching the wheel-rail contact points and solving the vehicle-track nonlinear coupling equation simultaneously, which greatly improves the efficiency of numerical analysis. As application examples, the dynamic responses of a high speed train-track spatial nonlinear coupled system excited by the track V-shaped local profile irregularity and the track torsional irregularity are analyzed. The results show that the algorithm is effective in solving the vehicle-track spatial nonlinear coupled system dynamics problem, and the track irregularity has significant influence on the dynamic response of vehicle and track structure.

Automated summary

This study develops a vehicle-track spatial nonlinear coupled system dynamics model using FEM to analyze the coupling between the vehicle subsystem and the track subsystem. The algorithm effectively solves the dynamics problem of the vehicle-track spatial nonlinear coupled system and shows that track irregularity has a significant influence on the dynamic response of the vehicle and track structure.