Title of Paper:Behavior of propagating fracture at bedding interface in layered rocks

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Date of Publication:2015-10-30

Journal:ENGINEERING GEOLOGY

Included Journals:SCIE、EI、Scopus

Volume:197

Page Number:33-41

ISSN No.:0013-7952

Key Words:Interface debonding; Penetration; Termination; Shear strength; Layered rock

Abstract:The behavior of fracture penetration/abutment at interfaces in layered rock sequences is investigated numerically. Three types of fracture intersection with interface can be captured for a propagating fracture from the softer layer to a fracture-bound block in the stiffer layer: interface debonding/termination, interface debonding/penetration and penetration. The results indicate that there is a critical interface strength which controls the fracture patterns. If the interface strength is lower than the critical value, the propagating fracture would terminate at the interface and interface debonding then occurs as the tensile load further increases. If the interface strength is close to the critical value, a combining mode of interface debonding and fracture penetration can be observed. If the interface strength is sufficiently higher than the critical value, the propagating fracture directly penetrates the interface without any debonding along the interface. The evolutions of tensile stress and shear stress along the interface indicate that debonding along the interface can greatly reduce the load transferred from the softer layer and thus preclude the fracture penetration. A parametric study, including the tensile strength, layer thickness and fracture spacing is also discussed in detail. (C) 2015 Elsevier B.V. All rights reserved.