2022
DOI: 10.1002/dug2.12027
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Dynamic evolution in mechanical characteristics of complex supporting structures during large section tunnel construction

Abstract: The shallow tunnelling method (STM) often uses temporary supports to divide large section tunnels into several closed or semiclosed sections so as to share the upper load. The complex support system composed of primary and temporary supports can ensure safety during tunnel construction. Based on the large section tunnel of Beijing Subway Line 12, the mechanical characteristics of support system by the double-side-drift method (DSDM) during excavation and demolition were analyzed through numerical simulation an… Show more

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Cited by 8 publications
(3 citation statements)
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“…Among them, the assessment of geomechanical characteristics and stability of rock and soil strata in the metro proximity construction area is the primary key work for the safety prevention and control of existing structures [9,10]. Through geomechanical testing and assessment, the occurrence of the metro proximity construction area, the properties of rock and soil bodies, the strength of rock and soil bodies, the geological structure and formation structure, the ground stress, and the surrounding conditions of the construction area can be mastered [11,12]. It can provide a reliable basis for a safety impact assessment and disaster warning of existing structures.…”
Section: Introductionmentioning
confidence: 99%
“…Among them, the assessment of geomechanical characteristics and stability of rock and soil strata in the metro proximity construction area is the primary key work for the safety prevention and control of existing structures [9,10]. Through geomechanical testing and assessment, the occurrence of the metro proximity construction area, the properties of rock and soil bodies, the strength of rock and soil bodies, the geological structure and formation structure, the ground stress, and the surrounding conditions of the construction area can be mastered [11,12]. It can provide a reliable basis for a safety impact assessment and disaster warning of existing structures.…”
Section: Introductionmentioning
confidence: 99%
“…As the time develops, the filling is gradually compacted, leading the bearing capacity of the foundation to be constantly increased, which in turn, provides favorable conditions for the building height. At the same time, complex coupling effects, such as soil-water pressure and geothermal, will affect the structural stability of underground facilities with the development of time (e.g., Jiang et al, 2022;Liu et al, 2023;Yang et al, 2023). Hence, determining the variation law of the strength of the remolded loess foundation over time as well as the standard value of the bearing capacity of the foundation under different time nodes are significant issues in the urban expansion of the mountainous areas.…”
Section: Introductionmentioning
confidence: 99%
“…During the shelving of the foundation, while the soil settles and deforms, various coupling effects such as soil water pressure and geothermal energy can also occur, affecting the strength of the foundation soil (Liu et al, 2023;Yang et al, 2023). These coupling effects also affect the structural stability of underground space engineering during shelving (Jiang et al, 2022;Xue et al, 2023c). During the period of foundation shelving, the bearing capacity of the foundation increases continuously.…”
mentioning
confidence: 99%