Prediction of roof collapse for rectangular underground openings

Suchowerska, A. M.; Hambleton, J. P.; Carter, J. P.

Title: Prediction of roof collapse for rectangular underground openings
Creator: Suchowerska, A. M.; Hambleton, J. P.; Carter, J. P.
Relation: AusRock 2014: Third Australasian Ground Control in Mining Conference. AusRock 2014: Third Australasian Ground Control in Mining Conference: Proceedings (Sydney 5-6 November, 2014) p. 367-374
Relation: http://www.ausimm.com.au/publications/epublication.aspx?ID=16217
Publisher: The Australasian Institute of Mining and Metallurgy (AusIMM)
Resource Type: conference paper
Date: 2014
Description: In order to effectively predict the roof collapse of underground openings using continuum models, it is imperative that a realistic failure criterion is used to represent the rock mass. However, for coal mining operations, there is still uncertainty as to the appropriate failure criterion that should be used for the coal measure strata. This study compares stability numbers and collapse mechanisms for a rectangular underground opening predicted based on three commonly used failure criteria: the standard Mohr-Coulomb, Mohr-Coulomb with a tension cut-off and Hoek-Brown. Three methods of analysis are considered: 1. an analytical upper bound method 2. an upper and lower bound finite element formulation 3. the displacement finite element method. The theoretical results are also compared with field measurements of subsidence above longwall coal mining. For the standard Mohr-Coulomb failure criterion, the friction angle governs the shape of the collapse mechanism, and the so-called critical width (the cavity width above which failures extend to the ground surface) ascertained from field observations in the New South Wales coalfields corresponds to a friction angle of approximately 30°. On the other hand, predictions obtained based on the Hoek-Brown failure criterion consistently overestimate the critical width. The results also show that tensile failure governs the stability of the cavity and shape of the collapse mechanism when a tension cut-off is introduced for the Mohr-Coulomb yield criterion.
Subject: roof collapse; failure criterion; collapse mechanisms; mining
Identifier: http://hdl.handle.net/1959.13/1295028
Identifier: uon:18922
Language: eng
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