Subsurface ground movements due to circular shaft construction

Le, Binh Thanh; Goodey, R.J.; Divall, S.

doi:10.1016/j.sandf.2019.03.013

Cited by 11 publications

(14 citation statements)

References 8 publications

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“…(2017); New and Bowers (1994); Newhouse (2017) in case histories using different construction methods in stiff clay, additionally to the high-quality centrifuge test results of Le et al (2019) conducted in clay. Table 1 summarizes final excavation depth (𝐻), the wall length (𝐻 𝑤 ), the diameter of the shaft (𝐷), the construction method, and the ground conditions.…”

Section: Validationmentioning

confidence: 99%

“…Current studies on ground movements induced by deep excavations focused on rectangular pits (Hsiung, 2020;Ng et al, 2020Ng et al, , 2012Teng et al, 2018;Yoo and Lee, 2008); for plane-strain excavations and rectangular pits, there have been successful applications of elastic theory to vertical and horizontal displacement prediction (Fan et al, 2021;Lei et al, 2001;Ng and Yan, 1998;Ng and Lei, 2003). However, despite the availability of history case studies of circular shaft construction (Faustin et al, 2017(Faustin et al, , 2018Tan and Wang, 2013;Wong and Kaiser, 1988), that could be used to calibrate similar analytical solutions, practical methods for preliminary prediction of induced soil movements in shafts are limited to empirical methods (Le et al, 2019;New and Bowers, 1994). In particular, New and Bowers (1994) presented an empirical formula to predict the surface settlements by shaft construction calibrated on the monitoring data from one shaft at Heathrow Express Trial tunnel in stiff clay.…”

Section: Introductionmentioning

confidence: 99%

“…Ground movements arising from the excavation of circular shafts using SBE are smaller compared with the EBS and combined method that may also be characterized by a degree of overexcavation (as for tunnelling). In addition, the estimation of subsurface soil movements is also of interest; Le et al (2019) performed centrifuge tests in kaolin clay to investigate the effects of pre-install shaft construction and suggested two empirical equations to describe the distributions of subsurface soil movements. Alternately, advanced numerical modelling (Lai et al, 2020;Schwamb and Soga, 2015) is an effective tool for the design of shaft.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Analytical prediction of ground movements due to circular shaft construction in clayey soils

2023

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With the rapid expansion of urbanization, shafts are needed to provide access to tunnelling projects or be utilized for permanent works. Their construction causes ground movements, affecting nearby foundations and buried infrastructure. This study presents an analytical equivalent volume loss approach for predicting three-dimensional ground movements resulting from a circular shaft construction: namely, ground losses in the elastic isotropic half-space as a sequence of cavity contractions around the shaft are employed. First, the applicability and accuracy of proposed solutions are evaluated with published case studies and centrifuge tests. Thereafter, the method is employed to investigate the influence of the circular shaft construction on the surface and subsurface soil displacements. Considering design ground losses, this method allows for quick estimations of ground deformations and associated risk of serviceability losses.

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Section: Validationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Analytical prediction of ground movements due to circular shaft construction in clayey soils

2023

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“…Existing parameter of the selection methods focusses on probabilistic inverse analysis. Te feld practicability of the research results is poor, and there is a lack of a parameter checking method that can link feld monitoring and numerical simulation [19][20][21]. Terefore, it is of great theoretical and practical signifcance to propose and establish a new method for parameter checking, and to carry out research on the deformation response mechanism of deep soil under circular foundation pit excavation and support.…”

Section: Introductionmentioning

confidence: 99%

Research on the Stress and Deformation Characteristics of Circular Foundation Pit during Excavation in Sand Soil

Gao

Tian

et al. 2023

Advances in Materials Science and Engineering

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The stress and deformation response characteristics of the support structure in the process of excavation and support of circular sand foundation pit are complex. The existing research results lack a general analysis method for the mutual check between the field monitoring data and the numerical simulation results. This research relies on the excavation and support project of a circular foundation pit in the sandy soil layer of the west anchorage of Humen Second Bridge. The force and deformation characteristics of foundation pit soil are monitored and structure is supported during construction. A new method for checking simulation parameters based on the excursion monitoring data of the diaphragm wall is proposed. The modeling and calculation theory of foundation pit excavation and support process is established. The superposition calculation of pore water pressure is used to realize the foundation pit seepage-stress coupling. The effects of steady-state seepage conditions on the equivalent strain of foundation pit soil, the displacement of the diaphragm wall, and the axial force of the lining are compared and analyzed. The stress and deformation mechanism of the soil layer and supporting structure during the excavation and support of a circular foundation pit in the sand layer is obtained.

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“…ere are 1367.681 billion tons of coal resources in the buried depth of 1500-2000 m, among which the reliable coal resources are 329.229 billion tons, accounting for 30.1% of the predicted total amount. With the exploitation of deep coal resources, the depth of coal mine shafts [2] is keeping breaking records, and higher requirements are put forward for coal mine construction, especially deep shaft construction [3]. Due to the coupling action of temperature and pressure on deep rocks, coupled with the rock characteristics of strata, complex stratification, and joint structure, the shaft construction is faced with a variety of disasters such as water damage, gas, lifting, transportation, and falling [4,5].…”

Section: Introductionmentioning

confidence: 99%

Design and Research of Intelligent Safety Monitoring Robot for Coal Mine Shaft Construction

Liu

et al. 2021

Advances in Civil Engineering

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This study analyzes the main causes of accidents in the period of coal mine shaft construction and the shortage of the existing safety monitoring technology, puts forward the intelligent safety monitoring robot technology based on shaft construction, and deeply investigates the functions that the safety monitoring robot should have. Besides, the research objective of intelligent safety monitoring robot for shaft construction is pointed out, and the research is carried out from such aspects as the robot body structure, walking mechanism, adsorption mechanism, control, communication, intelligent sensing, hazard source recognition, recognition of explosive detonators, and software platform development. As well, this study designs the technical device of intelligent safety monitoring robot for shaft construction, defines the characteristics of this technology, expounds the important significance of studying this technology, and indicates the development trend of this technology.

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Subsurface ground movements due to circular shaft construction

Cited by 11 publications

References 8 publications

Analytical prediction of ground movements due to circular shaft construction in clayey soils

Analytical prediction of ground movements due to circular shaft construction in clayey soils

Research on the Stress and Deformation Characteristics of Circular Foundation Pit during Excavation in Sand Soil

Design and Research of Intelligent Safety Monitoring Robot for Coal Mine Shaft Construction

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