不连续性分类
岩体分类
离散元法
地质学
断裂(地质)
有限元法
岩石力学
扩展离散元法
断裂力学
地质力学
发掘
岩土工程
扩展有限元法
工程类
机械
结构工程
有限元极限分析
物理
数学分析
数学
作者
A. Lisjak,Giovanni Grasselli
标识
DOI:10.1016/j.jrmge.2013.12.007
摘要
The goal of this review paper is to provide a summary of selected discrete element and hybrid finite–discrete element modeling techniques that have emerged in the field of rock mechanics as simulation tools for fracturing processes in rocks and rock masses. The fundamental principles of each computer code are illustrated with particular emphasis on the approach specifically adopted to simulate fracture nucleation and propagation and to account for the presence of rock mass discontinuities. This description is accompanied by a brief review of application studies focusing on laboratory-scale models of rock failure processes and on the simulation of damage development around underground excavations.
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