A discrete element exploration of V-shaped breakout failure mechanisms in underground opening  

作　　者：Huaizhong Liu Jeen-Shang Lin Jiangda He Hongqiang Xie 

机构地区：[1]State Key Laboratory of Hydraulics and Mountain River Engineering,College of Water Resources and Hydropower,Sichuan University,Chengdu 610065,Sichuan,China [2]Department of Civil and Environmental Engineering,University of Pittsburgh,Pittsburgh,PA 15261,USA [3]Department of Mechanical Engineering and Material Science,University of Pittsburgh,Pittsburgh,PA 15261,USA [4]Department of Bioengineering,University of Pittsburgh,Pittsburgh,PA 15261,USA

出　　处：《Underground Space》2020年第4期281-291,共11页地下空间（英文）

基　　金：The authors would like to acknowledge the financial support of China Scholarship Council for study in the United States,and the accommodation provided by the Department of Civil and Environmental Engineering,University of Pittsburgh.The authors would also acknowledge the funding of National Key Research and Development Program of China(2017YFC1501104);National Natural Science Foundation of China(51079092).

摘　　要：V-shaped breakouts,which may appear in underground opening during excavation,are the results of two different failure mechanisms:tensile spalling and shear fracturing.This study uses discrete elements in exploring the conditions that would lead to different breakout mechanisms under plane strain conditions.The test tunnel of the Mine-by Experiment in Lac du Bonnet granite batholith is adopted as the base problem.In order to carry out the study,some fundamental issues need to be addressed.First,an exponential softening bond that enables the incorporation of fracture energy is adopted.In order to obtain a reasonable ratio between the uniaxial compressive strength,rc,and the uniaxial tensile strength,rt,discrete disc particles are tied together to form an irregular shape clump as the basic discrete element.This effort is supported by a successful reproducing of test results from Lac du Bonnet granite in DEM modeling.The issue of sensitivity of discrete particle size on results is examined.The reduction of strength with increase in specimen size is also modeled.After the calibration work is completed,the Mine-by tunnel behavior is studied.Finally,this study shows that a reduction in rc/rt ratio,under the same setup,would cause the failure mechanism to transit from tensile spalling to shear fracturing in V-shaped breakouts.

关 键 词：Tensile spalling Shear fracturing V-shaped breakouts Mine-by tunnel Discrete element method 

分 类 号：TU94[建筑科学—建筑技术科学]