Investigating the scale-dependency of the geometrical and mechanical properties of a moderately jointed rock using a synthetic rock mass (SRM) approach

A synthetic rock mass (SRM) model coupling discrete fracture networks (DFNs) and a discrete element grain-based model (DEM) is used to characterize the mechanical properties of moderately jointed rockmasses under confined and unconfined conditions. The scale dependency of the rockmass properties is...

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Veröffentlicht in:	Computers and geotechnics 2018-03, Vol.95, p.162-179
Hauptverfasser:	Farahmand, K., Vazaios, I., Diederichs, M.S., Vlachopoulos, N.
Format:	Artikel
Sprache:	eng
Schlagworte:	Discrete element method Discrete fracture networks (DFN) Geology Grain Jointed rock Joints LiDAR Mathematical models Mechanical properties Representative elementary volume (REV) Rocks Scale-dependency rockmass strength and deformability Synthetic rock mass (SRM)
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creator	Farahmand, K. Vazaios, I. Diederichs, M.S. Vlachopoulos, N.
description	A synthetic rock mass (SRM) model coupling discrete fracture networks (DFNs) and a discrete element grain-based model (DEM) is used to characterize the mechanical properties of moderately jointed rockmasses under confined and unconfined conditions. The scale dependency of the rockmass properties is investigated using the concept of representative element volume (REV). The numerical results are compared with the estimated values from empirical methods. It is determined that the empirical Hoek-Brown criterion correctly estimates the unconfined strength of the rockmass with non-persistent joints, while it overestimates the strength under confined conditions. An S-shaped strength envelope is obtained from the numerical results.
doi_str_mv	10.1016/j.compgeo.2017.10.002
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The scale dependency of the rockmass properties is investigated using the concept of representative element volume (REV). The numerical results are compared with the estimated values from empirical methods. It is determined that the empirical Hoek-Brown criterion correctly estimates the unconfined strength of the rockmass with non-persistent joints, while it overestimates the strength under confined conditions. An S-shaped strength envelope is obtained from the numerical results.</abstract><cop>New York</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.compgeo.2017.10.002</doi><tpages>18</tpages></addata></record>
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subjects	Discrete element method Discrete fracture networks (DFN) Geology Grain Jointed rock Joints LiDAR Mathematical models Mechanical properties Representative elementary volume (REV) Rocks Scale-dependency rockmass strength and deformability Synthetic rock mass (SRM)
title	Investigating the scale-dependency of the geometrical and mechanical properties of a moderately jointed rock using a synthetic rock mass (SRM) approach
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