三维不连续变形分析理论及其在岩质边坡工程中的应用

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摘要三维非连续变形分析主要包括3个关键问题：块体系统的拓扑识别问题；单个块体(刚体或变形体)运动方程建立与求解；伴随着块体运动和变形，块体间的接触关系需要不断地判别和更新。针对这3个关键问题，从代数拓扑中单纯形及单纯复合形的概念出发，依靠边界算子来生成三维空间块体的几何识别算法，采用Euler-Poincaré公式来确保块体搜索的准确性；利用单纯形积分来获得块体物理特征量的解析解；在一阶位移模式下，按照最小势能原理建立三维块体系统非连续变形分析的总体平衡方程；针对岩体工程破坏特点，提出面–面接触模型，并在此基础上采用强度折减法来计算岩质边坡的安全系数。由简单楔形体破坏算例可知，三维DDA能够解决由传统极限平衡方法假定条件带来的问题，能够正确计算楔形体破坏的抗滑安全系数。通过工程边坡算例可知，采用三维非连续变形分析方法来研究岩体边坡稳定问题，既能深入理解岩质边坡的破坏机制，又能方便地确定临界滑动块体位置、体积、滑动方向以及相应支护方式等；同时，鉴于DDA方法能够精确地求解切向滑动力，结合强度折减法能够获得比较合理的安全系数。

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关键词 ：边坡工程；非连续变形分析；块体识别；面&ndash, 面接触；强度折减法

Abstract：Three key issues are included in three-dimensional discontinuous deformation analysis(3D-DDA)；they are identification of block，creation and solution to motion equations of individual unit，the detection and updating of varying contacts between the units as the consequences of their motions and deformations. For these questions，three-dimensional block geometric identification algorithm was formed through the boundary operator according the concept of simplex and simplicial complex in algebraic topology. To ensure the accuracy of block identification，Euler-Poincaré formula was adopted. And simplex integration is used to obtain the analytical solution of block physical characteristics quantity. Then based on first order displacement mode，global equilibrium equations of three-dimensional discontinuous deformation analysis system was proposed in accordance with the principle of minimum potential energy. According to failure characteristics of rock mass engineering，a face-face contact model was created；on this basis，factor of safety of rock slope was calculated using strength reduction method. It is known from the example of simple wedge failure that the problem caused by assumptions of limit equilibrium method can be solved by 3D-DDA，which could calculate the correct factor of safety for wedge stability. The engineering slope example shows that，through the research on rock slope stability by 3D-DDA，rock slope failure mechanism could be understood deeply；and the location，volume，sliding direction and the corresponding support methods of critical sliding block could be easily determined. In addition，considering that DDA could accurately solve the tangential sliding force，the reasonable factor of safety could be obtained by combining strength reduction method.

Key words： slope engineering discontinuous deformation analysis(DDA) block identification face-face contact strength reduction method

收稿日期: 2010-05-18

引用本文:

张国新，李海枫，黄涛. 三维不连续变形分析理论及其在岩质边坡工程中的应用[J]. 岩石力学与工程学报, 2010, 29(10): 2116-2126.
ZHANG Guoxin，LI Haifeng，HUANG Tao. THREE-DIMENSIONAL DISCONTINUOUS DEFORMATION ANALYSIS THEORY AND ITS APPLICATION TO ROCK SLOPES. , 2010, 29(10): 2116-2126.

链接本文:

http://www.rockmech.org/CN/Y2010/V29/I10/2116

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