Abstract
With the continuous expansion of the high-speed railway network in China, long-span railway bridges carrying multiple tracks demand reliable and fast testing procedures and techniques. Bridge dynamic behavior analysis is a critical process in ensuring safe operation of structures. In this study, we present some experimental results of the vibration monitoring of a four-track high-speed railway bridge with a metro–track on each side: the Nanjing–Dashengguan high-speed railway bridge (NDHRB). The results were obtained using a terrestrial microwave radar interferometer named IBIS-S. The radar measurements were interpreted with the support of lidar point clouds. The results of the bridge dynamic response under different loading conditions, including high-speed trains, metro and wind were compared with the existing bridge structure health monitoring (SHM) system, underlining the high spatial (0.5 m) and temporal resolutions (50 Hz–200 Hz) of this technique for railway bridge dynamic monitoring. The detailed results can help engineers capturing the maximum train-induced bridge displacement. The bridge was also monitored by the radar from a lateral position with respect to the bridge longitudinal direction. This allowed us to have a more exhaustive description of the bridge dynamic behavior. The different effects induced by the passage of trains through different tracks and directions were distinguished. In addition, the space deformation map of the wide bridge deck under the eccentric load of trains, especially along the lateral direction (30 m), can help evaluating the running stability of high-speed trains.
Highlights
High-speed trains produce strong dynamic effects on the bridge girders; and, the running stability of high-speed trains poses new requirements for the girder deformation of operating bridges [1]
The radar instrument was working in the dynamic mode with a maximum range of 250 m
We summarize below the main results: (1) As far as the train-induced displacement procedures are considered, the radar and hydrostatic leveling results are quite consistent in the six different load cases; (2) The hydrostatic leveling results about the train-induced displacements miss the real peak in most instances
Summary
High-speed trains produce strong dynamic effects on the bridge girders; and, the running stability of high-speed trains poses new requirements for the girder deformation of operating bridges [1]. Displacements of railway bridges and subsidence in the transition zones have been monitored using satellite SAR interferometry [3,4,5]. The dynamic impact of trains on high-speed railway bridges is an important problem in the design and evaluation of such bridges. High-speed trains excite the vibrations of the bridge structures, which can affect the performance and service-life of bridges. The bridge vibration in turn greatly affects the running safety and stability of high-speed trains. The train-induced vibration of bridges must be measured and evaluated in the operation of high-speed railway bridges
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