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白鹤滩水电站上坝线左拱座楔形体安全性能分析 被引量:9
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作者 徐卫亚 狄圣杰 +1 位作者 郑文棠 吴关叶 《岩石力学与工程学报》 EI CAS CSCD 北大核心 2011年第5期910-916,共7页
白鹤滩水电站上坝线左拱座底部岩体被陡倾断层切割成多个楔形体,坐落于拱坝底部及其下游,其稳定性直接影响到坝基和拱坝的安全。考虑楔形岩体各滑动面上复杂的渗透压力进行拱坝及楔形体安全性能分析,在FLAC3D中编制多种形式水压力施加程... 白鹤滩水电站上坝线左拱座底部岩体被陡倾断层切割成多个楔形体,坐落于拱坝底部及其下游,其稳定性直接影响到坝基和拱坝的安全。考虑楔形岩体各滑动面上复杂的渗透压力进行拱坝及楔形体安全性能分析,在FLAC3D中编制多种形式水压力施加程序,并以概念模型进行验证。根据数值计算结果,通过分析所选取结构面的典型节点位移变化,研究楔形体的稳定安全度、面安全系数及超载条件下屈服扩展状况,对其安全性能进行综合分析。研究表明:楔形体滑面考虑裂隙水压力和扬压力作用下,底部LS331滑面的安全度低于坝基接触面,上游右岸坝踵处开始出现局部屈服的超载安全系数为1.5,楔形体不能正常运行的超载安全系数为3.1,坝基不能正常运行的超载安全系数为3.3,坝基岩体整体破坏的超载安全系数为5.5。 展开更多
关键词 水利工程 楔形体 水压力 超载 面安全系数法 安全性能
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土质边坡稳定对数螺旋滑裂面的理论分析 被引量:1
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作者 杨萌 刘小敏 《山西建筑》 2006年第21期82-83,共2页
介绍了国内外边坡稳定中的滑裂面形式,并分析了各种滑裂面形式的优缺点,在此基础上提出了一种新的滑裂面形式———对数螺旋滑裂面,对此种形式从几何构造到受力分析进行了探讨,说明了这种滑裂面形式优于其他滑裂面形式的特点。
关键词 边坡稳定 对数螺旋线 滑裂 极限平衡 安全系数
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Reliability analysis for seismic stability of tunnel faces in soft rock masses based on a 3D stochastic collapse model 被引量:8
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作者 ZHANG Jia-hua ZHANG Biao 《Journal of Central South University》 SCIE EI CAS CSCD 2019年第7期1706-1718,共13页
A new horn failure mechanism was constructed for tunnel faces in the soft rock mass by means of the logarithmic spiral curve. The seismic action was incorporated into the horn failure mechanism using the pseudo-static... A new horn failure mechanism was constructed for tunnel faces in the soft rock mass by means of the logarithmic spiral curve. The seismic action was incorporated into the horn failure mechanism using the pseudo-static method. Considering the randomness of rock mass parameters and loads, a three-dimensional (3D) stochastic collapse model was established. Reliability analysis of seismic stability of tunnel faces was presented via the kinematical approach and the response surface method. The results show that, the reliability of tunnel faces is significantly affected by the supporting pressure, geological strength index, uniaxial compressive strength, rock bulk density and seismic forces. It is worth noting that, if the effect of seismic force was not considered, the stability of tunnel faces would be obviously overestimated. However, the correlation between horizontal and vertical seismic forces can be ignored under the condition of low calculation accuracy. 展开更多
关键词 3D stochastic collapse model pseudo-static method response surface method reliability index safety factor support pressure
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Limit equilibrium method for slope stability based on assumed stress on slip surface 被引量:2
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作者 邓东平 赵炼恒 李亮 《Journal of Central South University》 SCIE EI CAS CSCD 2016年第11期2972-2983,共12页
In the limit equilibrium framework, two- and three-dimensional slope stabilities can be solved according to the overall force and moment equilibrium conditions of a sliding body. In this work, based on Mohr-Coulomb(M-... In the limit equilibrium framework, two- and three-dimensional slope stabilities can be solved according to the overall force and moment equilibrium conditions of a sliding body. In this work, based on Mohr-Coulomb(M-C) strength criterion and the initial normal stress without considering the inter-slice(or inter-column) forces, the normal and shear stresses on the slip surface are assumed using some dimensionless variables, and these variables have the same numbers with the force and moment equilibrium equations of a sliding body to establish easily the linear equation groups for solving them. After these variables are determined, the normal stresses, shear stresses, and slope safety factor are also obtained using the stresses assumptions and M-C strength criterion. In the case of a three-dimensional slope stability analysis, three calculation methods, namely, a non-strict method, quasi-strict method, and strict method, can be obtained by satisfying different force and moment equilibrium conditions. Results of the comparison in the classic two- and three-dimensional slope examples show that the slope safety factors calculated using the current method and the other limit equilibrium methods are approximately equal to each other, indicating the feasibility of the current method; further, the following conclusions are obtained: 1) The current method better amends the initial normal and shear stresses acting on the slip surface, and has the identical results with using simplified Bishop method, Spencer method, and Morgenstern-Price(M-P) method; however, the stress curve of the current method is smoother than that obtained using the three abovementioned methods. 2) The current method is suitable for analyzing the two- and three-dimensional slope stability. 3) In the three-dimensional asymmetric sliding body, the non-strict method yields safer solutions, and the results of the quasi-strict method are relatively reasonable and close to those of the strict method, indicating that the quasi-strict method can be used to obtain a reliable slope safety factor. 展开更多
关键词 two-dimensional slope three-dimensional slope limit equilibrium analysis normal stress shear stress safety factor
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