Grain based modelling of rocks using the combined finite-discrete element method

被引:109
作者
Abdelaziz, Aly [1 ]
Zhao, Qi [1 ]
Grasselli, Giovanni [1 ]
机构
[1] Univ Toronto, Dept Civil & Mineral Engn, 35 St George St, Toronto, ON M5S 1A4, Canada
来源
COMPUTERS AND GEOTECHNICS | 2018年 / 103卷
基金
加拿大自然科学与工程研究理事会;
关键词
Grain based modelling; Combined finite-discrete element method; Microscopic and macroscopic rock behaviour; MICROCRACKING BEHAVIOR; NUMERICAL-SIMULATION; FRACTURE-TOUGHNESS; STRENGTH; HETEROGENEITY; COMPRESSION; PROPAGATION; GRANITE; FAILURE; SIZE;
D O I
10.1016/j.compgeo.2018.07.003
中图分类号
TP39 [计算机的应用];
学科分类号
081203 ; 0835 ;
摘要
This paper describes the implementation and advantages of grain based modelling (GBM) in the combined finitediscrete element method (FDEM) to study the mechanical behaviour of crystalline rocks. GBM in FDEM honours grain petrological properties and explicitly models grain boundaries. The simulation results demonstrated that GBM in FDEM predicted more realistic microscopic and macroscopic response of rocks than conventional FDEM models. The explicit modelling of crack boundaries captured microscopic failure transition from along grain boundaries to coalescence along the shear band, dominated by intraphase cracks. This novel framework presents a gateway into further understanding the behaviour of crystalline rocks and granular minerals.
引用
收藏
页码:73 / 81
页数:9
相关论文
共 51 条
[31]   Exploration into the causes of uncertainty in UDEC Grain Boundary Models [J].
Mayer, J. M. ;
Stead, D. .
COMPUTERS AND GEOTECHNICS, 2017, 82 :110-123
[32]   A COMBINED FINITE-DISCRETE ELEMENT METHOD IN TRANSIENT DYNAMICS OF FRACTURING SOLIDS [J].
MUNJIZA, A ;
OWEN, DRJ ;
BICANIC, N .
ENGINEERING COMPUTATIONS, 1995, 12 (02) :145-174
[33]   Fracture toughness measurements and acoustic emission activity in brittle rocks [J].
Nasseri, M. H. B. ;
Mohanty, B. ;
Young, R. P. .
PURE AND APPLIED GEOPHYSICS, 2006, 163 (5-6) :917-945
[34]   Fracture Toughness and Fracture Roughness in Anisotropic Granitic Rocks [J].
Nasseri, M. H. B. ;
Grasselli, G. ;
Mohanty, B. .
ROCK MECHANICS AND ROCK ENGINEERING, 2010, 43 (04) :403-415
[35]   Three-dimensional periodic Voronoi grain models and micromechanical FE-simulations of a two-phase steel [J].
Nygårds, M ;
Gudmundson, P .
COMPUTATIONAL MATERIALS SCIENCE, 2002, 24 (04) :513-519
[36]  
Okabe A., 2000, Spatial Tessellations Concepts and Applications of Voronoi Diagrams, V2nd
[37]   Modeling Micro-cracking Behavior of Bukit Timah Granite Using Grain-Based Model [J].
Peng, Jun ;
Wong, Louis Ngai Yuen ;
Teh, Cee Ing ;
Li, Zhihuan .
ROCK MECHANICS AND ROCK ENGINEERING, 2018, 51 (01) :135-154
[38]   Influence of grain size heterogeneity on strength and microcracking behavior of crystalline rocks [J].
Peng, Jun ;
Wong, Louis Ngai Yuen ;
Teh, Cee Ing .
JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH, 2017, 122 (02) :1054-1073
[39]  
Potyondy David O., 2010, P ROCK MECH NORD COU, P9
[40]   Large-scale 3D random polycrystals for the finite element method: Generation, meshing and remeshing [J].
Quey, R. ;
Dawson, P. R. ;
Barbe, F. .
COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING, 2011, 200 (17-20) :1729-1745
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