摘要
近场动力学(Peridynamics,PD)作为一种新兴的非局部性理论,在非连续处不需要任何处理,能够很好表述模型从连续到非连续的过程.首先,在PD基本理论简介的基础上,系统回顾了PD的国内外研究现状.其次,采用键型PD理论对非均匀性的圆孔岩板单轴拉伸破裂过程进行了二维数值模拟,采用态型PD理论对单轴、常规三轴以及真三轴等不同压缩条件下的岩石破裂过程进行了三维数值模拟,并以加拿大Mine-by隧洞为例对现场岩体破裂过程进行了模拟,结果表明PD在岩石破裂过程模拟上具有较强适用性.最后,指出当前PD在岩石破裂过程模拟中存在的主要问题和未来值得开展的若干研究课题.
The complex problem concerning the initiation and propagation of cracks in brittle materials is one of the most significant challenges in solid mechanics.As a common phenomenon,material failure may occur in the form of generation and growth of discontinuities such as cracks in engineering structures,resulting in great economic losses or even loss of life.At present,various numerical methods based on classical continuum mechanics are employed to model crack growth and material failure.However,the crack nucleation and singular crack-tip stress can hardly be solved due to the incapability of the currently available continuum mechanics-based numerical methods to handle discontinuous problems.Peridynmics(PD)is a nonlocal formulation based on integro-differential governing operators instead of spatial derivative terms.The peridynamic theory is applicable to the modeling of noncontinuous structural domains without any special treatment,and can well describe the mechanical behaviors from continuity to non-continuity.In this paper,the current situation and the developing trend of peridynamics in material modeling and failure problems of rock and other materials are reviewed through introducing the theoretical basis of peridynamics.Numerical simulations of rock materials subjected to uniaxial tension,uniaxial compression,conventional triaxial compression and true triaxial compression are performed,respectively.The irregular fracture of the rock slab with a circular hole under uniaxial tension is then analyzed by using the bandbased peridynamics.Moreover,the uniaxial,conventional triaxial and true triaxial numerical tests under three-dimensional conditions are investigated based on the state-based peridynamics.Subsequently,the fracture process of rock mass at the Mine-by tunnel in Canada is simulated.The present numerical results indicate that the peridynamic theory can be commendably applied in the noncontinuous mechanical behaviors of rock.Finally,some current problems of peridyanmics in rock fracture simulation and some topics worth further investigation are discussed.
作者
陈智勇
苏国韶
黄小华
朱建文
翟连军
Zhiyong Chen;Guoshao Su;Xiaohua Huang;JWoody Ju;Lianjun Zhai(College of Civil Engineering and Architecture,Guangxi University,Nanning,530004;Key Laboratory of Disaster Prevention and Structural Safety of Ministry ofEducation,Guangxi University,Nanning,530004)
出处
《固体力学学报》
CAS
CSCD
北大核心
2019年第4期354-371,共18页
Chinese Journal of Solid Mechanics
基金
国家自然科学基金(51869003和51569004)资助
关键词
岩石力学
岩石破裂
近场动力学
非局部模型
数值模拟
rock mechanics
rock fracture
peridynamic theory
non-local model
numerical simulation
