Cast-iron tunnels’ tolerance to imposed longitudinal settlement curvature

Alhaddad, Mehdi; Wilcock, M; Gue, Chang Ye; Soga, Kenichi; Devriendt, M; Dewhirst, Mark

doi:10.1680/jgeot.18.p.182

Cited by 5 publications

(3 citation statements)

References 5 publications

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“…Furthermore, due to the high risks posed by tunnel excavation to surface and structural stability, many researchers have used theoretical analysis methods [7][8][9][10][11], field measurements [12][13][14], laboratory model tests [15][16][17], and numerical simulations [18][19][20][21] to analyze the mechanisms and patterns of ground deformation caused by tunnel excavation. In terms of numerical simulations, Mou et al [22] studied the lateral surface settlement patterns of double-line shield tunnel construction by analyzing factors such as soil pressure, deformation property of soil, internal friction angles, and tunnel burial depth based on the numerical analysis of a shield tunnel section of the Nanning Metro's Line 3.…”

Section: Introductionmentioning

confidence: 99%

A Study on the Influence of Double Tunnel Excavations on the Settlement Deformation of Flood Control Dikes

Zhao

Cao

et al. 2023

Sustainability

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This article combines numerical simulation and field monitoring methods to study the stability of the overlying Liuyang River embankment in the tunnel crossing between Huaqiao Station and Rice Museum Station of Changsha Metro’s Line 6. Using AutoCAD, 3Dmine, and COMSOL Multiphysics, a calculation model of the entire subway tunnel section crossing the flood control embankment under the coupling of fluids and solids was established. The process of tunnel-crossing the embankment and the variation in spatial displacement and plastic strain in different geological layers were analyzed from the perspective of time evolution and spatial distribution. The research results show that during the process of crossing the embankment, the deformation of the east bank is greater than that of the west bank, and crossing the west bank is the relatively riskier stage of the entire project. Moreover, during the process of crossing the embankment, the overlying soil layer will produce a plastic strain zone, and only a small amount of plastic strain is generated in the surrounding sandstone layer of the tunnel walls. In terms of the magnitude of plastic strain, the plastic strain area produced by the leading tunnel’s surrounding rocks is larger than that of the following tunnel. As the excavation progresses, a funnel-shaped settlement displacement gradually forms during the passage of the leading tunnel, and this settlement funnel gradually expands during the passage of the following tunnel, with the maximum settlement point transitioning from directly above the leading tunnel to the middle position between the two tunnels. Using the jitter filter algorithm and the adjacent average method to process the field monitoring data, the results show that the monitored deformation results well match the simulated settlement results.

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Section: Introductionmentioning

confidence: 99%

A Study on the Influence of Double Tunnel Excavations on the Settlement Deformation of Flood Control Dikes

Zhao

Cao

et al. 2023

Sustainability

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“…Existing tunnels and pipelines can be affected detrimentally by ground settlements caused by bored tunneling (Alhaddad et al 2020;Jin et al 2018;Mair 2008). Because of these settlements, there is potential for loss of serviceability (e.g., differential settlements, distortion of tracks, and leakages both into tunnels or from pipelines) and, in extreme cases, structural damage of linings and connections, and possible threats for safety.…”

Section: Introductionmentioning

confidence: 99%

“…The need to account for the shear flexibility of the tunnel rings in damage assessment has also been pointed out by Alhaddad et al (2020). On the other hand, Wu et al (2018) considered both shear and bending flexibilities of a buried structure using an equivalent Timoshenko beam, for tunnels resting on a Vlasov foundation, subjected to vertical external forces transferred from a surcharge load on the ground surface.…”

Section: Introductionmentioning

confidence: 99%

Role of Shear Deformability on the Response of Tunnels and Pipelines to Single and Twin Tunneling

Franza

Viggiani

2021

J. Geotech. Geoenviron. Eng.

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Tunneling can compromise the safety and the serviceability of existing buried infrastructure because of settlements, crack openings, dislocations, and material strains. A continuum-based soil-structure interaction model, implementing an equivalent Timoshenko beam, is used to evaluate the excavation-induced settlements and longitudinal deformations of existing tunnels and pipelines.Both single and twin tunneling scenarios are examined. The shear flexibility of shield and sprayed concrete lining tunnels may be significant. This increases tunneling-induced settlements while it decreases tilt, curvature and associated bending moment, with implications for optimal monitoring installations. In this work, a new dimensionless shear factor is introduced, governing the relative importance of bending and shear deformations and accounting for the settlement trough width. This can be used to evaluate if a pure-bending, shear-dominated, or mixed deformation mode should be expected. Design charts to assess existing infrastructure affected by either single or twin tunnels are proposed.

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Wireless tilt sensor based monitoring for tunnel longitudinal Settlement: Development and application

et al. 2023

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Cast-iron tunnels’ tolerance to imposed longitudinal settlement curvature

Cited by 5 publications

References 5 publications

A Study on the Influence of Double Tunnel Excavations on the Settlement Deformation of Flood Control Dikes

A Study on the Influence of Double Tunnel Excavations on the Settlement Deformation of Flood Control Dikes

Role of Shear Deformability on the Response of Tunnels and Pipelines to Single and Twin Tunneling

Wireless tilt sensor based monitoring for tunnel longitudinal Settlement: Development and application

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