Influence Law of Vertical Layer-incremental Foundation Pit Excavation on Existing Station Structural Deformation
Journal Title: Urban Mass Transit - Year 2024, Vol 27, Issue 7
Abstract
Objective Construction disturbances from nearby excavation of foundation pit can cause significant deformation of existing stations in operation, thereby affecting the normal operation of trains. Therefore, it is necessary to study the influence of foundation pit excavation in vertically incremental layers on existing stations located below. Method Taking the construction project of Beijing Subway Line 6 Pingguoyuan Station three-level-section foundation pit as example, the Midas GTS NX finite element software is used to build a foundation pit model. The deformation law of existing station structures caused by deep foundation pit excavation in vertically incremental layers is analyzed, and the simulation results are compared with field monitoring results. Result & Conclusion With the progress of foundation pit excavation, the vertical deformation of existing station structures continuously increases, and the deformation curve of the roof plate exhibits a normal distribution. The mid-span deformation of the station roof is greater than the edge-span deformation, and the vertical deformation at station top is greater than that at the bottom. When the distance between the selected station section and the foundation pit exceeds 9.7 m (approximately 0.81 times the excavation depth), the differential deformation between edge-span and mid-span roof plates disappears. A comparison between numerical simulation data and actual monitoring results reveals that the deformation law of existing stations obtained from numerical simulation analysis is consistent with actual monitoring results, and the maximum deformation is less than the control value of 10.0 mm.
Authors and Affiliations
Zhiwei ZHANG, Qiang YOU, Jiashu ZHANG, Mingyang XU, Haitao WANG
Keywords
Related Articles
- EP ID EP742613
- DOI 10.16037/j.1007-869x.2024.07.029
- Views 42
- Downloads 0
Real-Time Passenger Flow Monitoring System for Urban Rail Transit Based on Cloud Platform Architecture
[Objective] In view of the shortcomings that the existing urban rail transit system unable meeting the requirements for passenger flow data real-time transmission, solutions for real-time passenger flow data transmissi...
Impact Analysis of Interface Thermal Conductivity on Pantograph-Catenary Contact Temperature Rise
[Objective] The interface temperature rise caused by PC (pantograph-catenary) contact in electric trains can accelerate the wear of pantograph strips, thereby increasing the maintenance costs of rail transit systems. T...
Impact Analysis of Wall-Caisson Composite Structure Construction Adjacent to Rail Transit Bridge
[Objective] The construction deformation control adjacent to operational railways is of utmost importance in current rail transit planning and construction. Therefore, it is necessary to study the effect of the diaphragm...
Technical Solution for Enhancing Signal Forwarding Performance of Train Backbone Network Switch Machines Based on FPGA Multi-level Switching Architecture
[Objective] The transmission services carried by urban rail transit communication networks are becoming increasingly diverse, leading to a significant volume of information exchange between communication devices. This...
Multi-objective Optimization Model of Track Utilization for Depot-returning Urban Rail Transit Trains with Shunting Operation Constraints
[Objective] To improve the impact of shunting operations on the track utilization for the depot-returning urban rail transit trains and enhance the train maintenance efficiency, it is necessary to optimize the track ut...