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- Title
Case Study of an Underpinning Pile Foundation for an Interval Tunnel Crossing an Existing Bridge.
- Authors
Zhou, Yuhang; Liu, Yuanming; Chen, Qingzhi; Ou, Xun; Li, Yingxiao
- Abstract
When urban subway tunnels cross existing bridge pile foundations, having a pile foundation underpinning that ensures the safe operation of existing bridges while enabling the safe construction of subway tunnels is the focus of attention. This paper takes the running tunnel project from Huaguoyuan West Station to Huaguoyuan East Station of Rail Transit Line 3 in Guiyang City, Guizhou Province as the background. The reasonableness and feasibility of the passive underpinning construction scheme for the Guihuang Viaduct was studied. The construction plan includes the following steps: underpinning pile construction, foundation pit excavation, the concreting of the underpinning bearing platform, and existing pile truncation. In order to ensure the structural safety of the existing viaduct during the construction of the pile foundation underpinning, a 3D numerical model of the construction of pile foundation underpinning and the whole process of tunnel construction was established. The settlement calculation results of the foundation pit and bridge pier were compared and analyzed with the field monitoring data to verify the accuracy of the numerical model. Further detailed analysis of the settlement of the bridge deck, the deformation of the existing piles, the axial forces of the existing piles, and the forces on the underpinning bearing platform was carried out. The results show that the bridge superstructure load can be transferred to the underpinning bearing platform smoothly after the existing pile truncation construction. The removal of obstacle piles during tunnel excavation has a very limited impact on the superstructure of the bridge, proving the reasonableness and feasibility of the construction plan.
- Subjects
GUIZHOU Sheng (China); GUIYANG (Guizhou Sheng, China); BRIDGE foundations &; piers; RAILROAD tunnels; TUNNEL design &; construction; SUBWAY tunnels; CONSTRUCTION planning; BRIDGE floors; RAILROAD stations
- Publication
Applied Sciences (2076-3417), 2022, Vol 12, Issue 24, p12566
- ISSN
2076-3417
- Publication type
Article
- DOI
10.3390/app122412566