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岩石高边坡弹塑性平面离散元分析研究
引用本文:陈晓斌,张家生,安关峰,刘学鹏. 岩石高边坡弹塑性平面离散元分析研究[J]. 岩土力学, 2006, 27(Z1): 1112-1118
作者姓名:陈晓斌  张家生  安关峰  刘学鹏
作者单位:1. 中南大学 土木建筑学院,长沙 ,410075;2. 清华大学土木工程系,北京, 100084;3. 中南水电勘测设计研究院,长沙 ,410014
基金项目:国家电力公司资助项目(2003G005)
摘    要:为了更有效指导边坡设计与施工,基于弹塑性平面离散元(DEM)模型,对龙滩水电站航道1+016~1+080段岩石高边坡的开挖支护过程进行了计算分析,分析了边坡在有支护结构对应力场、位移场、整体稳定性和边坡锚索轴力随开挖步骤变化情的影响,同时分析了地下水位升降对边坡变形和整体稳定性变化情况。计算分析结果表明,边坡支护前后,应力场、变形场,塑性屈服区分布情况有明显差别,支护结构可以减小边坡位移,提高边坡整体稳定性,地下水位升降对边坡变形和整体稳定性影响较大。另外,对边坡开挖过程中的坡顶位移和锚杆轴力进行了监测,监测结果与计算结果进行了比较。

关 键 词:离散元  岩石高边坡  边坡稳定性分析  
收稿时间:2006-03-20

Two dimensional elastoplastic distinct element analysis of high rock slope
CHEN Xiao-bin,ZHANG Jia-sheng,AN Guan-feng,LIU Xue-peng. Two dimensional elastoplastic distinct element analysis of high rock slope[J]. Rock and Soil Mechanics, 2006, 27(Z1): 1112-1118
Authors:CHEN Xiao-bin  ZHANG Jia-sheng  AN Guan-feng  LIU Xue-peng
Affiliation:1. School of Civil and Architectural Engineering, Central South University, Changsha 410075, China;2. Department of Civil Engineering, Tsinghua University, Beijing 100084, China;3. Central South Design & Research Institute of Hydroelectric Projects, Changsha 410014, China
Abstract:In order to analyze the anchors supporting structure’s effects, the 1+016-1+080 navigation route bank high rock slope in Longtan Hydropower Station were respectively computed under the supported and un-supported conditions by two-dimensional plane elastoplastic distinct element method(DEM). In the computation, the stress field, deformation field, plastic yielded zones distribution and stability were respectively calculated under supported and un-supported conditions. At the same time, the anchors axial forces during the excavation steps and the groundwater level effects on the slope deformation are also calculated. The analytical results show that there are obvious differences between the supported and un-supported conditions; and the anchors supporting structure can diminish slope deformation and improve the slope stability. Meanwhile, the ground water level of the slope has the obvious effects on the slope’s deformation and stability. The slope top deformation and the anchors’ inner force are measured during the excavation step and there was a good agreement between the DEM computation values and the surveyed values; for example, the max calculated slope top deformation is 9.48cm while the measured values is 7.55cm; and it is shown that the 2D elastoplastic distinct element method is suitable to calculate the high rock slope problems.
Keywords:distinct element method  high rock slope  slope stability analysis  
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