| Abstrakt: |
To further improve the transportation level of China's high-speed railway, it is urgent to research on the key technology of speed in for the existing 250 km/h high-speed railway. The track structure directly bears the train load, the adaptability of the track after the train speed increase is an important factor affecting the safe and stable operation of the train. Based on the field investigation, finite element analysis, numerical calculation and other methods, this paper studies the adaptability of ballasted track, ballastless track and designed track superelevation, and the technical conditions for the speed-increase track of 250 km/h high-speed railway are put forward. The main conclusions are as follows: the speed increase of ballasted track lines will cause the increase of dynamic indexes of the fastener and track bed, which will reduce the service performance of structures; the speed increase of ballastless tracks will cause the increase of the longitudinal and transverse bending moments of track slab and concrete base slab, and the longitudinal bending moment of track slab in subgrade section increases the most, which is 4. 7 kN · m/ m; considering the safety margin, the reinforcement of track slab and concrete base slab in the subgrade, bridge and tunnel sections meets the requirements of strength and crack width; after the speed increases, the track design curve superelevation should be adjusted to meet the requirements of minimum curve radius and transition curve length under different speed levels; after the speed increase, attention should be paid to the drainage of track slab structure, track smoothness, etc., and the relevant requirements of the current specifications should be satisfied. [ABSTRACT FROM AUTHOR] |
