Face failure of EPB shield tunnels in dry dense sand: a model test and DEM study

IF 3 3区 工程技术 Q2 ENGINEERING, GEOLOGICAL Canadian Geotechnical Journal Pub Date : 2023-12-06 DOI:10.1139/cgj-2023-0072
Jun Wang, Guojin Lin, Ning Tian, Kun Feng, Guowne Xu, Xiong-yu Hu, Zi-quan Chen, Chuan He
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Abstract

This paper aims at addressing the face failure of earth pressure balance (EPB) shield tunnels in dry dense sand by model tests and discrete element method (DEM) models. The model tests incorporated a miniature EPB shield which could fully reproduce the real tunnel construction of excavation and support. DEM models simulating the model tests were developed to capture the underlying face failure mechanism. Results show that both the limit support pressure obtained at chamber board and tunnel face increase with increasing C/D (C is tunnel buried depth, D is tunnel diameter). The ratio of the former to the latter approximates 0.60 due to the soil retaining of cutterhead panel, and it is independent of C/D. The local face failure initializes around tunnel face and develops directly to the global failure outcropping the ground surface in one phase with C/D≤1.0, while the local failure develops to the global failure in three phases with C/D=2.0 due to the soil arching evolution. The soil arching gets weaker when it propagates upward, and the horizontal stress concentration in the longitudinal direction is stronger than the transverse direction due to the difference of arch foot.
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干密实砂中 EPB 盾构隧道的面层破坏:模型试验和 DEM 研究
采用模型试验和离散元法(DEM)对干密砂中土压平衡盾构隧道工作面破坏进行了研究。模型试验采用了微型盾构机,可以完全再现隧道开挖和支护的真实施工过程。建立了模拟模型试验的DEM模型,以捕捉下伏工作面破坏机制。结果表明:随着C/D (C为隧道埋深,D为隧道直径)的增大,硐室板和巷道端面的极限支护压力均增大;由于刀盘盘的挡土作用,前者与后者的比值约为0.60,与C/D无关。局部工作面破坏在巷道工作面周围初始化,并在一个阶段(C/D≤1.0)内直接发展为地表整体破坏,而由于土拱演化,局部破坏发展为三个阶段(C/D=2.0)的整体破坏。土拱向上传播的过程中,土拱的强度逐渐减弱,且由于拱脚的不同,纵向的水平应力集中强于横向。
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来源期刊
Canadian Geotechnical Journal
Canadian Geotechnical Journal 地学-地球科学综合
CiteScore
7.20
自引率
5.60%
发文量
163
审稿时长
7.5 months
期刊介绍: The Canadian Geotechnical Journal features articles, notes, reviews, and discussions related to new developments in geotechnical and geoenvironmental engineering, and applied sciences. The topics of papers written by researchers and engineers/scientists active in industry include soil and rock mechanics, material properties and fundamental behaviour, site characterization, foundations, excavations, tunnels, dams and embankments, slopes, landslides, geological and rock engineering, ground improvement, hydrogeology and contaminant hydrogeology, geochemistry, waste management, geosynthetics, offshore engineering, ice, frozen ground and northern engineering, risk and reliability applications, and physical and numerical modelling. Contributions that have practical relevance are preferred, including case records. Purely theoretical contributions are not generally published unless they are on a topic of special interest (like unsaturated soil mechanics or cold regions geotechnics) or they have direct practical value.
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