帮助 关于我们

返回检索结果

基于SEM的可变形块体离散元法研究
Study of deformable block discrete element method based on SEM

查看参考文献19篇

文摘 针对边坡工程中岩土体连续-非连续渐进破坏的特点,提出一种新的变形体离散元方法(DEM)。与传统有限单元法(FEM)不同,弹簧元法(SEM)通过构建一组广义弹簧系统描述单元的力学行为。弹簧元法中的一个广义弹簧可以具有多个方向的刚度系数,确定广义弹簧系统的构造形式及其各刚度系数表达式是弹簧元法的核心。以三角形单元为例,介绍平面弹簧元的基本理论。对任何二维正交广义弹簧系统,通过定义广义弹簧变形与单元应变之间的关系,直接对比单元的应变能与弹簧系统的弹性势能即可得到广义弹簧刚度系数的表达形式。定义泊松刚度系数和纯剪刚度系数两个系统参数,描述正交广义弹簧之间的联系。对任意泊松比的材料,该方法都可准确地描述泊松效应的影响,计算结果与传统有限元法一致。该方法不需要求得有限元单元刚度矩阵的具体形式,具有直接方便、物理意义明确的优点,应用该方法给出任意4节点单元弹簧系统的构造形式及其各刚度系数的表达式。基于SEM的可变形块体离散元法,用弹簧元中的广义弹簧求解块体变形,用离散元中的接触弹簧计算块体间作用力,在单元节点的控制方程中实现弹簧元-离散元耦合计算,通过接触弹簧的状态实现材料由连续到非连续的破坏过程。在基于连续介质离散元法(CDEM)程序的基础上实现弹簧元-离散元耦合程序,应用耦合程序计算均质土坡在重力作用下的弹塑性变形和基覆边坡在重力作用下的破坏,初步证明该方法用于边坡变形渐进破坏分析的可行性。
其他语种文摘 Aiming at the continuous-discontinuous failure process of rock and soil materials in slope engineering, a novel deformable block discrete element method which combined spring element method(SEM) and discrete element method(DEM) together is presented. Compared with the accustomed element in traditional finite element method(FEM), the element in SEM is described as a spring system that contained some orthogonal generalized springs. This generalized springs are defined in 3D space, which means that each spring can has two or three spring stiffness. How to determine the generalized spring stiffness for continuous material is the difficult and most important in SEM. With the triangle element as an example, the basic theory of SEM is introduced in detail. Assuming the relationship between the generalized spring deformation and the element strain, the generalized spring stiffness can be obtained directly by comparing the elastic strain energy of the element and the elastic potential energy of the spring system. The Poisson and shear stiffness coefficients were defined as system parameters to describe the relationship between different generalized springs. The SEM can consider the Poisson effect accurately for any Poisson’s ratio material; and the result using SEM are the same with using traditional FEM. This method does not need to know the expression of the element-stiffness-matrix. It can be used in 4-node element; and the stiffness expressions of springs are given clearly. With the SEM used to compute the block deformation and the contact-spring used to calculate the interaction between blocks, the combined SEM/DEM program can be used to simulate the failure process of rock and soil material from continuous to discontinuous. The SEM and DEM are combined in the motion equation of each node in each element. The contact-spring in DEM satisfied specific strength criterion. When the contact-spring force exceeded its limit, the material became discontinuous from continuous. The combined SEM/DEM program is implemented easily in the continuum-based discrete element method(CDEM) program. The simulation of a homogeneous soil slope under gravity shows that the SEM is performed as good as FEM when using line elastic constitutive and reasonable when using Mohr-Coulomb strength criterion. The simulation of a bedrock and overburden layer slope shows that the combined program is suitable to simulate the slope failure process.
来源 岩土力学 ,2013,34(8):2385-2392 【核心库】
关键词 弹簧元法 ; 离散元法 ; 弹簧刚度 ; 边坡工程
地址

中国科学院力学研究所, 北京, 100190

语种 中文
文献类型 研究性论文
ISSN 1000-7598
学科 建筑科学
基金 国家973计划 ;  国家自然科学基金资助
文献收藏号 CSCD:4901034

参考文献 共 19 共1页

1.  Jing L. Numerical methods in rock mechanics. International Journal of Rock Mechanics & Mining Sciences,2002,39:409-427 被引 36    
2.  张楚汉. 论岩石、混凝土离散-接触-断裂分析. 岩石力学与工程学报,2008,27(2):217-235 被引 43    
3.  迟世春. 基于强度折减的拉格朗日差分方法分析土坡稳定性. 岩土工程学报,2004,26(1):42-46 被引 51    
4.  路晓敏. 基于有限元与块体元法的地下洞室变形及稳定性分析. 工程力学,2001,18(4):60-66 被引 1    
5.  Morris J P. Simulations of fracture and fragmentation of geologic materials using combined FEM/DEM analysis. International Journal of Impact Engineering,2006,33:463-473 被引 11    
6.  Bagherzadeh K h A. Micromechanics of breakage in sharp-edge particles using combined DEM and FEM. Particuology,2008,6(5):347-361 被引 6    
7.  Bagherzadeh K h A. Numerical simulation of particle breakage of angular particles using combined DEM and FEM. Powder Technology,2011,205:15-29 被引 19    
8.  Li S H. A continuum-based discrete element method for continuous deformation and failure process. WCCM VI in Conjunction with APCOM'04,2004 被引 4    
9.  魏怀鹏. 基于连续介质模型的离散元方法中弹簧性质研究. 岩石力学与工程学报,2006,25(6):1159-1169 被引 10    
10.  田振农. 三维块体离散元可变形数值模拟研究. 岩石力学与工程学报,2008,27(增刊1):2832-2840 被引 7    
11.  张冲. 三维简单变形体离散元方法. 岩土工程学报,2007,29(2):159-163 被引 4    
12.  金峰. 考虑弹塑性本构的三维模态变形体离散元方法断裂模拟. 工程力学,2011,28(5):1-7 被引 5    
13.  周伟. 堆石体应力变形细观模拟的随机散粒体不连续变形模型及其应用. 岩石力学与工程学报,2009,28(3):491-499 被引 33    
14.  常晓林. 模拟岩体失效全过程的连续-非连续变形体离散元方法及应用. 岩石力学与工程学报,2011,30(10):2004-2011 被引 26    
15.  Tang Chunan. Applications of rock failure process analysis(RFPA) method. Journal of Rock Mechanics and Geotechnical Engineering,2011,3(4):352-372 被引 2    
16.  冯春. 基于连续介质力学的块体单元离散弹簧法研究. 岩石力学与工程学报,2010,29(增刊1):2690-2705 被引 12    
17.  Li Shihai. A spring system equivalent to continuum model. Discrete Element Methods,2010:75-85 被引 1    
18.  王勖成. 有限单元法基本原理和数值方法,1996 被引 53    
19.  Itasca Consulting Group Inc. Fast lagrangian analysis of continua theory and background,2005 被引 1    
引证文献 3

1 王杰 基于单元破裂的岩石裂纹扩展模拟方法 力学学报,2015,47(1):105-118
被引 18

2 李世海 践行工程科学思想的体会--工程科学是技术创新与人类认识的源泉 力学学报,2022,54(8):2332-2342
被引 0 次

显示所有3篇文献

论文科学数据集
PlumX Metrics
相关文献

 作者相关
 关键词相关
 参考文献相关

版权所有 ©2008 中国科学院文献情报中心 制作维护:中国科学院文献情报中心
地址:北京中关村北四环西路33号 邮政编码:100190 联系电话:(010)82627496 E-mail:cscd@mail.las.ac.cn 京ICP备05002861号-4 | 京公网安备11010802043238号