Experimental Study of Dynamic Responses of Special Tunnel Sections under Near-Fault Ground Motion

Tang, Yong; Zheng, Yong; Liu, Lin; Xian, Liping; Guo, Deping

doi:10.3390/su15054506

Sustainability

2023

DOI: 10.3390/su15054506

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Experimental Study of Dynamic Responses of Special Tunnel Sections under Near-Fault Ground Motion

Yong Tang

Yong Zheng

Lin Liu

et al.

Abstract: Data surveys show that near-fault ground motion does great damage to tunnel structures, especially the portal section and fault zone. In this paper, a series of shaking table model tests of near-fault tunnels were conducted and the surrounding-rock fault-zone-lining model of the near-fault tunnel was established. Accelerometers and strain gauges were arranged at specific locations, and the experimental process of earthquake occurrence was simulated by inputting seismic waves of different working conditions, wh… Show more

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Cited by 2 publications

References 29 publications

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Influence of Different Circumferential Bolts on the Seismic Response of Shield Tunnel

Guo,

Geng,

Tang

et al. 2023

Journal of Earthquake Engineering

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Influence of Different Circumferential Bolts on the Seismic Response of Shield Tunnel

Guo,

Geng,

Tang

et al. 2023

Journal of Earthquake Engineering

View full text Add to dashboard Cite

Excavation Method Comparison and Optimization for a Super Large Cross-Section Tunnel

Huang,

Fang,

Wang

2024

Applied Sciences

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Characterized by long spans, low aspect ratios, and intricate construction sequences, super-large cross-section tunnels present substantial construction risks. Therefore, the selection of the optimal excavation method and construction sequence is crucial for ensuring the safety of tunnel construction and minimizing project costs. This paper takes a super large transverse-section highway tunnel as a case study, employing field monitoring data combined with ABAQUS software to analyze the stress and deformation of surrounding rock and support structures under different excavation methods. The findings reveal that the deformation of surrounding rock and support structures excavated by the Double-Side Drift Method is smaller than those caused by the three-benching seven-step method and the CRD excavation method. Nevertheless, the significant stresses of surrounding rock and support structures are released by the Double-Side Drift Method, leading to potential stress concentrations. Thus, it is necessary to ensure the rapid completion of early support and quick sealing of the tunnel. Furthermore, the sixth process achieves smaller deformation (including arch displacement and surface settlement) of the tunnel, a shorter construction period, and lower economic costs when compared to other construction processes. Consequently, it can obviously be concluded that both the Double-Side Drift Method and the sixth construction process stand out as the most appropriate choices for excavating super large cross-section tunnels. The insights obtained from this study provide theoretical guidance for the design and construction of similar tunnel projects.

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Experimental Study of Dynamic Responses of Special Tunnel Sections under Near-Fault Ground Motion

Cited by 2 publications

References 29 publications

Influence of Different Circumferential Bolts on the Seismic Response of Shield Tunnel

Influence of Different Circumferential Bolts on the Seismic Response of Shield Tunnel

Excavation Method Comparison and Optimization for a Super Large Cross-Section Tunnel

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