2020
DOI: 10.3390/app10155182
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Field Monitoring of the Deformation and Internal Forces of the Surrounding Rock and Support Structures in the Construction of a Super-Span High-Speed Railway Tunnel—A Case Study

Abstract: A super-span tunnel that has the characteristics of a large excavation area, a small high-span ratio and a significant spatial effect exhibits a complex mechanical response during the excavation process. In this paper, taking the Badaling Great Wall station in Beijing, China as the engineering background, a case study of field monitoring a super-span tunnel has been presented. A typical monitoring section was selected in the super-span transition section of the tunnel and the deformation and forces of both the… Show more

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Cited by 12 publications
(5 citation statements)
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“…Due to the late start of single-hole four-lane highway tunnels, research in the field of tunnel engineering on large-span highway tunnels mainly focuses on single-hole threelane highway tunnels and double-track railway tunnels [8][9][10], while there are limited studies on single-hole four-lane super large-span highway tunnels. Previous research on large-span highway tunnels has mainly focused on construction methods [11,12], support parameters [13][14][15], and stability control of surrounding rock [16][17][18] during construction. Nevertheless, there has been less attention paid to the stress properties of the secondary lining of large-span highway tunnels, and related research has mainly focused on load effects.…”
Section: Introductionmentioning
confidence: 99%
“…Due to the late start of single-hole four-lane highway tunnels, research in the field of tunnel engineering on large-span highway tunnels mainly focuses on single-hole threelane highway tunnels and double-track railway tunnels [8][9][10], while there are limited studies on single-hole four-lane super large-span highway tunnels. Previous research on large-span highway tunnels has mainly focused on construction methods [11,12], support parameters [13][14][15], and stability control of surrounding rock [16][17][18] during construction. Nevertheless, there has been less attention paid to the stress properties of the secondary lining of large-span highway tunnels, and related research has mainly focused on load effects.…”
Section: Introductionmentioning
confidence: 99%
“…In the meantime, the findings of numerical modeling revealed that the damage rule of the tunnel's surrounding rock was governed by both stress and lithological characteristics, which was extremely consistent with experimental results. Liu et al (2020) took the Badaling Great Wall station in Beijing as the research object, selected a typical monitoring section in the super-span transition section of the tunnel, and methodically monitored deformation and stress between surrounding rock and supporting structures [24]. Their findings revealed that deformations and stresses between the surrounding rock and tunnel lining were directly related to construction processes, geophysical conditions, and super-span tunnel positions.…”
Section: Introductionmentioning
confidence: 99%
“…Li et al (2021) established a microseismic (MS) monitoring system and performed numerical simulation based the discrete element method (DEM) to investigate the stability of rock mass in high geostress underground powerhouse caverns subjected to excavation. Liu et al (2020) taken the Badaling Great Wall station in Beijing as the engineering background, a typical monitoring section was selected in the super-span transition section of the tunnel and the deformation and forces of both the surrounding rock and the support structures were systematically monitored. The results showed that the deformation and the forces acting on both the surrounding rock and the tunnel's lining are directly related to the construction procedures, the geological conditions and the locations in the super-span tunnel.…”
Section: Introductionmentioning
confidence: 99%