Rockfall hazard analysis from discrete fracture network modelling with finite persistence discontinuities

Lambert, Cédric; Thoeni, Klaus; Giacomini, Anna; Casagrande, Davide; Sloan, Scott

Title: Rockfall hazard analysis from discrete fracture network modelling with finite persistence discontinuities
Creator: Lambert, Cédric; Thoeni, Klaus; Giacomini, Anna; Casagrande, Davide; Sloan, Scott
Relation: Rock Mechanics and Rock Engineering Vol. 45, Issue 5, p. 871-884
Publisher Link: http://dx.doi.org/10.1007/s00603-012-0250-1
Publisher: Springer Wien
Resource Type: journal article
Date: 2012
Description: Developing an accurate representation of the rock mass fabric is a key element in rock fall hazard analysis. The orientation, persistence and density of fractures control the volume and shape of unstable blocks or compartments. In this study, the discrete fracture modelling technique and digital photogrammetry were used to accurately depict the fabric. A volume distribution of unstable blocks was derived combining polyhedral modelling and kinematic analyses. For each block size, probabilities of failure and probabilities of propagation were calculated. A complete energy distribution was obtained by considering, for each block size, its occurrence in the rock mass, its probability of falling, its probability to reach a given location, and the resulting distribution of energies at each location. This distribution was then used with an energy–frequency diagram to assess the hazard.
Subject: rockfall hazard; jointed rock; discrete fracture network; polyhedral modelling; 3D photogrammetry
Identifier: http://hdl.handle.net/1959.13/1325470
Identifier: uon:25270
Identifier: ISSN:0723-2632
Language: eng
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