Analysis of NATM and shield tunneling in soft ground

Demand for new underground transportation systems and utility networks has increased the use of tunneling in soft ground. Many of these tunnels have to be constructed in difficult soil conditions, with strict constraints on ground movement control. Technological advances, such as the pressurized shi...

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Main Author: Leca, Eric
Other Authors: Civil Engineering
Format: Others
Language:en_US
Published: Virginia Polytechnic Institute and State University 2015
Subjects:
Online Access:http://hdl.handle.net/10919/54230
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spelling ndltd-VTETD-oai-vtechworks.lib.vt.edu-10919-542302020-12-23T05:32:33Z Analysis of NATM and shield tunneling in soft ground Leca, Eric Civil Engineering LD5655.V856 1989.L422 Tunneling Tunnel lining Demand for new underground transportation systems and utility networks has increased the use of tunneling in soft ground. Many of these tunnels have to be constructed in difficult soil conditions, with strict constraints on ground movement control. Technological advances, such as the pressurized shield or the New Austrian Tunneling Method (NATM), have, to some extent, overcome these difficulties. But the complex interaction between tunneling procedure, ground response, and liner support is still not fully understood. In this dissertation, the three aspects of tunneling, face stability, liner design, and ground surface settlement are analyzed for conditions that might be experienced on current projects. The study is intended to clarify some of the phenomena associated with the use of advanced tunneling techniques in soft grounds, and help improve the current design practice. The NATM generally uses "hand-mining" equipment for excavation, and shotcrete as temporary support of the tunnel wall. The amount and timing of support is optimized by continuously adapting the construction procedure to the conditions found at the tunnel face. In the present study, the applications of the finite element method to tunneling are reviewed, and it is used to model NATM tunneling projects. Using parametric studies, a simplified design method is proposed which allows an estimate of the liner forces and settlements associated with NATM tunneling to be obtained. Pressurized shields are used in soils with little to zero stand-up time to support the tunnel face during excavation. In this work, the face stability of shield tunnels in cohesionless soils is examined using limit analysis principles. Upper bound estimates of the critical face pressure are found in good agreement with results from centrifuge model tests. Empirical correlations for settlement estimates are re-examined, in view of case history data for shield driven tunnels. The ground movements observed on the F3 and F4 contracts of the Washington Metro are analyzed. Earth pressure balance shields were used on these projects. It is shown that difliculties were common in mixed face conditions, unless adequate techniques were used to prevent ground collapse to occur. Ph. D. 2015-07-09T20:43:21Z 2015-07-09T20:43:21Z 1989 Dissertation Text http://hdl.handle.net/10919/54230 en_US OCLC# 21268798 In Copyright http://rightsstatements.org/vocab/InC/1.0/ xxxiii, 476 leaves application/pdf application/pdf Virginia Polytechnic Institute and State University
collection NDLTD
language en_US
format Others
sources NDLTD
topic LD5655.V856 1989.L422
Tunneling
Tunnel lining
spellingShingle LD5655.V856 1989.L422
Tunneling
Tunnel lining
Leca, Eric
Analysis of NATM and shield tunneling in soft ground
description Demand for new underground transportation systems and utility networks has increased the use of tunneling in soft ground. Many of these tunnels have to be constructed in difficult soil conditions, with strict constraints on ground movement control. Technological advances, such as the pressurized shield or the New Austrian Tunneling Method (NATM), have, to some extent, overcome these difficulties. But the complex interaction between tunneling procedure, ground response, and liner support is still not fully understood. In this dissertation, the three aspects of tunneling, face stability, liner design, and ground surface settlement are analyzed for conditions that might be experienced on current projects. The study is intended to clarify some of the phenomena associated with the use of advanced tunneling techniques in soft grounds, and help improve the current design practice. The NATM generally uses "hand-mining" equipment for excavation, and shotcrete as temporary support of the tunnel wall. The amount and timing of support is optimized by continuously adapting the construction procedure to the conditions found at the tunnel face. In the present study, the applications of the finite element method to tunneling are reviewed, and it is used to model NATM tunneling projects. Using parametric studies, a simplified design method is proposed which allows an estimate of the liner forces and settlements associated with NATM tunneling to be obtained. Pressurized shields are used in soils with little to zero stand-up time to support the tunnel face during excavation. In this work, the face stability of shield tunnels in cohesionless soils is examined using limit analysis principles. Upper bound estimates of the critical face pressure are found in good agreement with results from centrifuge model tests. Empirical correlations for settlement estimates are re-examined, in view of case history data for shield driven tunnels. The ground movements observed on the F3 and F4 contracts of the Washington Metro are analyzed. Earth pressure balance shields were used on these projects. It is shown that difliculties were common in mixed face conditions, unless adequate techniques were used to prevent ground collapse to occur. === Ph. D.
author2 Civil Engineering
author_facet Civil Engineering
Leca, Eric
author Leca, Eric
author_sort Leca, Eric
title Analysis of NATM and shield tunneling in soft ground
title_short Analysis of NATM and shield tunneling in soft ground
title_full Analysis of NATM and shield tunneling in soft ground
title_fullStr Analysis of NATM and shield tunneling in soft ground
title_full_unstemmed Analysis of NATM and shield tunneling in soft ground
title_sort analysis of natm and shield tunneling in soft ground
publisher Virginia Polytechnic Institute and State University
publishDate 2015
url http://hdl.handle.net/10919/54230
work_keys_str_mv AT lecaeric analysisofnatmandshieldtunnelinginsoftground
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