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Rock Mechanics and Rock Engineering

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14-03-2018 | Original Paper

Experimental Study of the Triaxial Strength Properties of Hollow Cylindrical Granite Specimens Under Coupled External and Internal Confining Stresses

Authors: Shaofeng Wang, Xibing Li, Kun Du, Shanyong Wang, Ming Tao

Published in: Rock Mechanics and Rock Engineering | Issue 7/2018

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Abstract

High geostresses and stress gradients are the predominant stress conditions in deep excavation-disturbed rock masses. The aim of this study is to determine the triaxial compressive strength properties of hollow cylindrical granite specimens under a radially non-uniform confining stress field with different radial stress gradients determined by coupled external and internal confining stresses. Triaxial compression testing of hollow cylindrical rock specimens was performed to investigate the influence of the radial stress gradient, external confining stress and specimen length-to-diameter (L/D) ratio on the triaxial compressive strength. The experimental results and regressed failure criteria indicate that the triaxial compressive strengths of the hollow cylindrical granite specimens increase with the external confining stresses, but decrease with an increase in the radial stress gradients. The calculated goodness of fit (R²) and root-mean-squared error suggest that the nonlinear failure criterion based on the Hoek–Brown model is more accurate than the linear failure criterion based on the Mohr–Coulomb model for determining the influences of the external confining stress and radial stress gradient on the triaxial compressive strength. In addition, the triaxial compressive strength increases with a decreasing L/D ratio due to the strengthening end effect of the hollow cylindrical granite specimens and the change in the failure pattern of these specimens from shear to slabbing.

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Title: Experimental Study of the Triaxial Strength Properties of Hollow Cylindrical Granite Specimens Under Coupled External and Internal Confining Stresses
Authors: Shaofeng Wang
Xibing Li
Kun Du
Shanyong Wang
Ming Tao
Publication date: 14-03-2018
Publisher: Springer Vienna
Published in: Rock Mechanics and Rock Engineering / Issue 7/2018
Print ISSN: 0723-2632
Electronic ISSN: 1434-453X
DOI: https://doi.org/10.1007/s00603-018-1452-y

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Correction to: Analysis on the Evolution of Rock Block Behavior During TBM Tunneling Considering the TBM–Block Interaction