Action Path and Mechanism of Segment Joints in the Failure History of Shield Tunnel Lining

[1]  Biao Hu,et al.  Evolution of tunnel uplift and deformation induced by an upper and collinear excavation: A case study from Shenzhen metro , 2023, Transportation Geotechnics.

[2]  Huanyu Cheng,et al.  Mechanism and countermeasures of progressive failure in shield tunnels , 2023, Tunnelling and Underground Space Technology.

[3]  B. Ayyub,et al.  Experimental study on deformational resilience of longitudinal joint in shield tunnel lining , 2022, Structure and Infrastructure Engineering.

[4]  Z.X. Yang,et al.  Analytical analysis of the longitudinal response of shield tunnel lining considering ring-to-ring interaction , 2022, Computers and Geotechnics.

[5]  Jianxun Chen,et al.  Deformation Evolution and Failure Mechanism of Monoclinic and Soft-Hard Interbedded Strata: Study of Muzhailing Tunnel , 2021 .

[6]  A. Rashiddel,et al.  Numerical study of the segmental tunnel lining behavior under a surface explosion – Impact of the longitudinal joints shape , 2020 .

[7]  Hong-wei Huang,et al.  Modified analytical solution of shield tunnel lining considering nonlinear bending stiffness of longitudinal joint , 2020 .

[8]  J. C. Wang,et al.  Analytical solution for a jointed shield tunnel lining reinforced by secondary linings , 2020 .

[9]  J. C. Wang,et al.  Analytical Solution for Segmental-Tunnel Lining Incorporating Interaction between Adjacent Rings , 2020, Journal of Engineering Mechanics.

[10]  Yanbin Luo,et al.  Failure Mechanisms and Modes of Tunnels in Monoclinic and Soft-Hard Interbedded Rocks: A Case Study , 2020 .

[11]  Peng Limin,et al.  Causes Analysis, Reinforcement and Repair Technology of Segment Crack and Damage During Shield Tunnelling Process: A Case Study , 2018, Geotechnical and Geological Engineering.

[12]  Tianqi Zhang,et al.  Study of the collapse mechanism of shield tunnels due to the failure of segments in sandy ground , 2017 .

[13]  Kenichi Soga,et al.  Experimental investigation of the nonlinear behavior of segmental joints in a water-conveyance tunnel , 2017 .

[14]  Xian Liu,et al.  Investigation of the structural effect induced by stagger joints in segmental tunnel linings: First results from full-scale ring tests , 2017 .

[15]  Irini Djeran-Maigre,et al.  Three-dimensional numerical simulation for mechanized tunnelling in soft ground: the influence of the joint pattern , 2014 .

[16]  Climent Molins,et al.  Experimental and analytical study of the structural response of segmental tunnel linings based on an in situ loading test. Part 2: Numerical simulation , 2011 .

[17]  Climent Molins,et al.  Experimental and analytical study of the structural response of segmental tunnel linings based on an in situ loading test. , 2011 .

[18]  Huai-na Wu,et al.  Deformation behaviors and failure mechanism of segmental RC lining under unloading condition , 2022, Tunnelling and Underground Space Technology.

[19]  Yong Yuan,et al.  Analytical solution for longitudinal bending stiffness of shield tunnels , 2019, Tunnelling and Underground Space Technology.

[20]  Xian Liu,et al.  Investigation of the structural effect induced by stagger joints in segmental tunnel linings: Direct insight from mechanical behaviors of longitudinal and circumferential joints , 2018 .

[21]  C.B.M. Blom,et al.  Design philosophy of concrete linings for tunnels in soft soils , 2002 .