The stability of shallow tunnels in rock based on limit analysis

Li, Anjui; Merifield, Richard

Title: The stability of shallow tunnels in rock based on limit analysis
Creator: Li, Anjui; Merifield, Richard
Relation: 3rd International Conference on New Development in Rock Mechanics and Engineering. The Proceedings of the 3rd International Conference 24-26 May 2009, Sanya, P.R. China on New Development in Rock Mechanics and Engineering (Sanya, China 24-26 May, 2009) p. 289-294
Publisher: Liberty Culture and Technology Company
Resource Type: conference paper
Date: 2009
Description: Predicting the stability of long rock tunnels presents a significant challenge for geotechnical engineers. This arises due to the difficulty in evaluating the jointed rock mass strength, because rock masses are inhomogeneous, discontinuous media composed of rock material and naturally occurring discontinuities such as joints, fractures and bedding planes. In general, to estimate the stability of rock tunnels, conventional Mohr-Coulomb model using the parameters, c and φ, are used. This study adopts the nonlinear Hoek-Brown failure criterion to deal with the shallow tunnel stability problem. In this paper, numerical finite element upper and lower bound limit analysis has been used conjunction with the latest version of the Hoek-Brown failure criterion. A range of tunnel geometries and material properties are considered and rigorous bounds on the internal tunnel pressure required to prevent collapse are obtained.
Subject: rock tunnels; stability; Hoek-Brown failure criterion; limit analysis; collapse prevention
Identifier: http://hdl.handle.net/1959.13/919226
Identifier: uon:8800
Identifier: ISBN:0975506811
Language: eng

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