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1.
岩质边坡关键块体的搜索方法及工程应用 总被引:1,自引:0,他引:1
工程边坡开挖所揭露的某些结构面组合块体在破坏原有静力平衡状态后,进行应力重新分配,进而块体会发生失稳、滑动等变形,甚至影响到整个边坡发生破坏,因此,结构面组合块体的稳定性是决定岩质边坡稳定的重要因素。本文通过对某工程开挖边坡地形和结构面三维实体模型的建立,实现了边坡结构面与开挖地形实体模型在AutoCAD平台上的可视化操作,剖切不同位置的二维图形预测分析了边坡开挖后可能存在的结构面组合块体,采用块体计算程序(Swegde)验证关键块体并进行稳定性评价。结果表明:三维实体模型及剖切技术与块体计算方法的结合,易于搜索关键块体。事实证明,该方法操作简便,计算结果准确,搜索方法具备可行性。 相似文献
2.
M. Curtaz A. M. Ferrero R. Roncella A. Segalini G. Umili 《Rock Mechanics and Rock Engineering》2014,47(2):605-620
Several high-altitude slope instability phenomena, involving rock blocks of different volumes, have been observed in recent years. The increase in these phenomena could be correlated to climatic variations and to a general increase in temperature that has induced both ice melting with consequent water seepage and glacial lowering, with a consequent loss of support of the rock face. The degradation of the high-altitude thermal layer, which is known as “permafrost”, can determine the formation of highly fractured rock slopes where instabilities can concentrate. The present research has developed a methodology to improve the understanding and assessment of rock slope stability conditions in high mountain environments where access is difficult. The observed instabilities are controlled by the presence of discontinuities that can determine block detachments. Consequently, a detailed survey of the rock faces is necessary, both in terms of topography and geological structure, and in order to locate the discontinuities on the slope to obtain a better geometric reconstruction and subsequent stability analysis of the blocky rock mass. Photogrammetric surveys performed at different times allow the geostructure of the rock mass to be determined and the rock block volumes and detachment mechanisms to be estimated, in order to assess the stability conditions and potential triggering mechanisms. Photogrammetric surveys facilitate both the characterisation of the rock mass and the monitoring of slope instabilities over time. The methodology has been applied in a case study pertaining to the North Face of Aiguilles Marbrées in the Mont Blanc massif, which suffers from frequent instability phenomena. A slope failure that occurred in 2007 has been back-analysed using both the limit equilibrium method (LEM) and 3D distinct element modelling (DEM). The method has been supported and validated with traditional in situ surveys and measurements of the discontinuity orientation and other rock mass features. 相似文献
3.
摘要:岩质高边坡整体稳定性主要受软弱结构面及其组合控制,在组合有利的情况下,边坡主要发生浅表层块体失稳,开挖时的爆破振动作用是影响浅表层块体稳定的重要因素。本文以大渡河中游某岩质块状结构高边坡为例研究浅表层块体的稳定性,在总结浅表层块体失稳特征的基础上,实测爆破振动曲线,进行块体稳定性评价。研究结果表明,开挖后已失稳浅表层块体大多小于10m3,80%受软弱结构面控制,70%集中在马道下缘;实测的浅表层块体爆破振动加速度曲线显示,与邻近围岩相比,浅表层块体振动持续时间长,频率低,峰值小;等效静力法评价结果较爆破参数推算法更适用于临界失稳浅表层块体的稳定性评价。 相似文献
4.
白鹤滩水电站左岸坝基边坡地质构造错综复杂,坡内多条陡倾断层和顺坡向错动带是控制边坡稳定性的主要因素。结合现场地质资料、监测数据及勘察认识,利用通用离散元软件UDEC建立左岸边坡开挖变形分析模型。首先在无支护开挖工况下研究主要结构面F17、LS331、LS3319上下盘岩体关键点应力及位移变化,并指出潜在失稳破坏区;同时采用预应力锚索单元在不同施工时序下对潜在不稳定块体进行加固计算,对比研究了不同方案下左岸边坡的变形破坏机制和整体稳定性。计算结果和现场监测表明:左岸边坡变形破坏与结构面密切相关,在开挖卸荷作用下主要表现为沿错动带的压剪破坏和陡倾断层的张拉破坏,采用预应力锚索加固处理能够有效提高边坡稳定性,并且在开挖后及时跟进支护可以有效抑制边坡剪切变形。研究结果对白鹤滩左岸坝基边坡后续工程加固和施工工序具有一定的参考价值。 相似文献
5.
Jeongi-Gi Um Pinnaduwa H. S. W. Kulatilake 《Geotechnical and Geological Engineering》2001,19(1):21-42
The granitic rock mass that exists in the shiplock region of the Three Gorges dam site contains a number of major discontinuities and about four sets of minor discontinuities. One hundred and thirty three major discontinuities have been mapped around the shiplock covering an area of 1740×600 m. These major discontinuities were used to perform rock slope kinematic and block theory analyses. Kinematic analyses were performed under the following two cases: (1) assuming all the mapped discontinuities cross the shiplock; (2) using only discontinuities that actually intersect the shiplock. Under case (1) and case (2) the shiplock faces in the proposed permanent shiplock region in fresh rock were found to be stable up to a cut slope of about 45° and 58°, respectively. Block theory was applied to identify different block types that exist on the shiplock faces and to estimate the maximum safe slope angles on the shiplock faces. The orientations of the major discontinuities that actually intersect the shiplocks were considered in this analysis. The total length of the shiplock (1750 m) was divided into 50 m segments. From the stereo-plots, the key blocks (Type I) and/or potential key blocks (Type II) were found for only five segments of the shiplock slopes. It was found that the dip of the cut slope should be less than about 60° to avoid creation of a key block on the proposed shiplock slopes. However, it is important to keep in mind that these conclusions are based on the kinematic analyses performed using only the major discontinuities. Further kinematic as well as kinetic analyses are recommended incorporating minor discontinuities, water forces, earthquake forces etc. before making the final conclusions about the maximum safe slope angle for the shiplock region. 相似文献
6.
Because of the simplicity and the speed of execution, methods used in static stability analyses have yet remained relevant. The key‐block method, which is the most famous of them, is used for the stability analysis of fractured rock masses. The KBM method is just based on finding key blocks, and if no such blocks are found to be unstable, it is concluded that the whole of the rock mass is stable. Literally, though groups of ‘stable’ blocks are taken together into account, in some cases, it may prove to be unstable. An iterative and progressive stability analysis of the discontinuous rock slopes can be performed using the key‐group method, in which groups of collapsible blocks are combined. This method is literally a two‐dimensional (2D) limit equilibrium approach. Because of the normally conservational results of 2D analysis, a three‐dimensional (3D) analysis seems to be necessary. In this paper, the 2D key‐group method is developed into three dimensions so that a more literal analysis of a fractured rock mass can be performed. Using Mathematica software, a computer program was prepared to implement the proposed methodology on a real case. Then, in order to assess the proposed 3D procedure, its implementation results are compared with the outcomes of the 2D key‐group method. Finally, tectonic block No.2 of Choghart open pit mine was investigated as a case study using the proposed 3D methodology. Results of the comparison revealed that the outcomes of the 3D analysis of this block conform to the reality and the results of 2D analysis. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
7.
M. E. A. Mondal Tariq Siddique Mohammad Alam M. Masroor Alam 《Journal of the Geological Society of India》2016,87(4):463-468
Rock mass characterization of Utari dam in Lalitpur district of Uttar Pradesh was done to identify different stability classes of rock mass. For better stability of Utari dam, foundation conditions were carefully studied by detailed field investigations of the site supplemented by laboratory tests. During feasibility and preliminary stages, rock mass characterization of slopes was conducted to identify the vulnerable zones of failure. Rock mass characterization was done by compilation of information obtained from intact rock as well as from rock mass to determine its grade and long term slope stability of the site. On the basis of Rock Mass Rating (RMR) and Geological Strength Index (GSI) slope stability is identified which lies under good quality rock mass. Kinematic analysis was conducted to find out the probability for different types of structurally controlled slope failure. Microscopic analyses were conducted to identify the degree of chemical alteration of feldspar. Clay formation by sericitization along joint planes is harmful for the stability of dam structure. Remedial measures must be taken to reduce the extent of chemical alteration. Granitoids at dam site forms a compact and stable foundation consisting of four sets of joints in which two sets were prominent which are dipping on the upstream side of the dam which reveals good condition on the dam site as leakage from reservoir will be minimum and least up-thrust on the dam structure. 相似文献
8.
太原西山大佛松动岩体边坡稳定性分析 总被引:1,自引:0,他引:1
针对太原西山大佛现状,根据大佛所处的地形地貌、地质构造、气象水文条件和场地工程地质条件,分析了影响大佛边坡岩体稳定性的主要因素,提出了大佛边坡岩体可能遭受的主要工况类型。大佛边坡直立,边坡岩体为二叠系厚层砂岩,岩层近水平略向坡内倾斜。区域构造节理切割和临空卸荷使大佛岩体呈松动块状。基于强度折减法的二维有限差分稳定性分析表明,边坡边缘局部变形可能导致陡崖由反向坡变为顺向坡,从而使大佛边坡趋于滑动失稳。进一步运用拟静力法和极限平衡法分析了多种工况条件下大佛松动岩体边坡的顺层抗滑动稳定性和抗倾覆稳定性。分析表明,仅在地震力作用下大佛陡崖岩体不会发生顺层滑动破坏,但存在向外倾覆崩落的危险;在排水不畅的条件下松动岩体裂隙充水对大佛陡崖边坡的抗滑稳定性会有显著影响;在裂隙静水压力和水平地震力联合作用下,大佛陡崖将失稳破坏。 相似文献
9.
《Geomechanics and Geoengineering》2013,8(4):293-302
This paper presents a comparative study of two methods, Sarma's method and the discontinuous deformation analysis (DDA), for rock slope stability analysis. The comparison concerns the stability analysis of two classic rock slopes. The study shows that the DDA, which accounts for the block kinematics, provides a very different factor of safety as compared with Sarma's method. More realistic reaction forces around each rock block can be obtained by the DDA, including the thrust forces between rock blocks and the forces between the base and the blocks. The DDA's result shows two possible directions for the relative movement between two contiguous blocks at the initiation of slope failure. It also indicates that the limit equilibrium condition may not occur along the interfaces of rock blocks at the initiation of slope failure. The determination of realistic interaction forces around each block will be very important in rock slope stability analysis if nonlinear failure criteria are considered. 相似文献
10.
A rigid block based lower bound limit analysis method for analyzing stability of fractured rock mass in 2D and 3D conditions is proposed. The rock bridge effects are considered in the general formation. No assumptions are imposed on the inter-element forces, and the solution obtained is statically admissible. The proposed method is theoretically rigorous and simple. The validation and efficiency of the proposed method have been demonstrated through three typical types of slopes, indicating that apart from the fractures, rock bridge plays a key role in stabilizing rock blocks, which should be greatly concerned in stability analysis of rock mass. 相似文献
11.
重庆武隆鸡尾山滑坡视向滑动机制分析 总被引:8,自引:0,他引:8
重庆武隆鸡尾山山体为典型的斜倾厚层灰岩山体,其破坏模式不同于常见侧向崩塌-堆积层滑坡,属于真倾向滑移变形转为视向整体滑动的特殊失稳模式。在现场地质调查的基础上,从地层岩性、岩体结构、岩溶及地下水作用、软弱夹层等影响因素分析重庆武隆鸡尾山滑坡形成原因;根据滑坡破坏机制,基于关键块体控制理论,对鸡尾山滑坡进行三维稳定性极限平衡分析;利用三维离散元软件模拟鸡尾山滑坡的初始变形破坏过程,分析了鸡尾山滑坡不同影响因素条件下的视向滑动形成机制和变形破坏特征,并探讨了节理化和溶蚀岩体的参数取值。结果分析认为,在重力的长期作用下,鸡尾山山体初始沿真倾向方向滑移,沿岩溶发育的陡倾节理裂隙逐渐产生后缘及侧向裂缝,形成块状后部驱动块体,由于地下水等因素使软弱夹层软化,驱动块体下滑力增大,前缘阻滑关键块体内部应力积累,并最终沿强度较低的岩溶发育带发生剪切破坏,从而导致整体滑动;在进行滑坡稳定性极限平衡分析时,考虑实际的滑坡机制,将滑体分为驱动块体和关键块体分别进行力的解析,并以关键块体的安全系数代表滑坡的安全系数更加合理。数值模拟显示,软弱夹层强度降低、岩溶发育带剪切破坏后,滑体进入大变形阶段,表明关键块体控制和阻滑作用明显,软弱夹层强度降低是滑坡发生的关键因素。采矿形成的采空区对山体的影响主要是使上覆岩体压应力增大,但对滑体的变形无影响。 相似文献
12.
在岩质边坡滑动-倾倒组合破坏地质力学模型的基础上,采用改进的传递系数法,提出了岩质边坡滑动-倾倒组合破坏的解析分析方法,并对初始下滑推力及岩块底部的凝聚力进行敏感性分析。与传递系数法相似,将边坡体几何力学参数及潜在倾倒岩块编号作为变量,使得每个倾倒岩块的稳定性分析具有统一的表达式,并易于采用Microsoft excel进行程序化分析。分析结果表明:岩块底面的凝聚力对下部潜在倾倒区域的破坏模式影响较大,随着岩块底面凝聚力的增加,潜在倾倒区域发生倾倒破坏的块体呈逐渐增加的趋势,而发生滑动破坏的块体则明显较少,岩块底面倾角对坡体整体稳定性影响较大;随着岩块底面倾角的增大,整个坡体的稳定性逐渐降低。 相似文献
13.
临空面的几何形状在边坡破坏模式与稳定性分析中起着举足轻重的作用。运动学分析是确定边坡破坏模式与评价边坡稳定性的一种有效方法。目前基于运动学分析的边坡稳定性研究主要集中于单临空面边坡的破坏模式与最大安全开挖边坡角的确定。本文将此项研究扩展至双临空面边坡,将其破坏模式细分为4种,分别为沿结构面发生单平面滑动、沿结构面发生楔形体滑动、沿两个结构面的交线发生楔形体滑动以及倾倒破坏。在立体投影中得出,平滑滑动与楔形体滑动的滑动区为双临空面真倾向线与摩擦圆所组成的区域,单个结构面倾角矢量与两个结构面交线矢量位于该区城内;倾倒破坏区为双临空面真倾向线、摩擦圆与基圆所组成的区域,结构面的法向矢量位于该区城内。提出了双临空面边坡最大安全开挖边坡角的确定方法及边坡设计原则。最后将上述方法应用于三峡库区湖北省秭归县郭家坝镇郭家坝村生基坡高边坡,研究了该双临空面边坡的破坏模式并给出了最大安全边坡角的建议值 相似文献
14.
Failure mechanism in an extremely slow rock slide at Bitchu-Matsuyama castle site (Japan) 总被引:1,自引:1,他引:1
One of the specific problems related to historical structures is the fact that they are prone to damage caused by even very
small deformations acting over a long period of time, such as creep or extremely small rock displacements. If any damage has
already occurred, the determination of the rock slope failure mechanism is one of the prerequisites for successful mitigation
technique selection. In this study a medieval castle in central Japan, suffering damage caused by deformation of the rock
mass in the subgrade of the castle, was investigated using a combination of field investigation, high-precision monitoring
and physical modeling experiments. Using these techniques an attempt to determine the failure mechanism of the rock slope
was made. Based on the field investigation a toe-slope failure seemed to be the main triggering factor activating the deformations
in the upper slope area, right below the defense walls of the castle. The displacement monitoring of the surface rock blocks
revealed a slumping failure with the backward rotational component prevailing over the sliding in the immediate vicinity of
the castle wall. This was in accordance with the expectations obtained from the structural analysis of the rock mass carried
out during the field investigation. The displacements obtained during the rock block monitoring, especially from the crack
gauges, were not sufficient for drawing a satisfactory conclusions about the failure mechanism of the blocks located in the
central part of the slope. Therefore, the failure mechanisms of rock blocks inferred from their displacements obtained from
the monitoring were correlated with the results of modeling experiments carried out on the scaled slope model. The physical
modeling revealed a possibility of toppling failure of rock blocks in the central area of the slope caused mainly by block
interlocking, which was supported by the data from surface tilt meters installed additionally in the field. Furthermore, the
possibility of the occurrence of forward and backward rock block rotations in the same sliding body at given conditions was
supported by the physical modeling experiments. 相似文献
15.
为了科学评价冻岩露天矿边坡稳定性,并采用有效措施保证冻岩边坡工程的安全建设和运营,分析了岩石在不同温度条件下多个物理力学参数的变化规律,结果表明,冻结态使岩石的强度得到一定的提高,而冻融循环使岩石的强度产生一定的削弱。由于岩体具有介质和结构的双重属性,冻融循环作用对岩体的介质和结构面损伤均较显著,可以通过改进的Hoek-Brown岩体强度准则分析冻融环境中的岩体强度。基于木里聚乎更矿区冻岩露天煤矿边坡的调查分析,总结归纳了该区冻岩边坡的破坏现象和类型,在冻融循环作用下冻岩边坡的破坏模式基本为浅表部的渐进式破坏。 相似文献
16.
The process of creating man made or “cut” slopes in rock invariably leads to stress relief within the rock mass which in turn induces a certain degree of fracturing and disturbance. The level of disturbance can be particularly significant when the slope is formed using blasting techniques. However, the effects of this disturbance on the overall rock slope stability have not been investigated thoroughly in the current literature. In order to account for rock mass disturbance during construction, a disturbance factor has been included in the Hoek–Brown failure criterion [1]. This paper uses finite element upper and lower bound limit analyses to estimate rock slope stability based on the Hoek–Brown failure criterion whilst including the effect of rock mass disturbance. A rigorous set of analyses have been performed where the level of disturbance is considered as constant or linearly varying throughout the slope. The results are then compared to a number of reported case histories for verification purposes. From the results of this study, the disturbance factor was found to have significant influence on the rock slope stability assessment, especially for poorer quality rock masses. Hence, cautious engineering judgement must be exercised when estimating the level of disturbance. In addition, utilising stability charts to estimate the stability of cut rock slopes without considering the rock mass disturbance may lead to significant overestimations. 相似文献
17.
基于传统块体理论对不连续岩体的稳定分析是建立在不连续面贯穿所研究岩体的假定基础上的,而实际的岩体不连续而长度是有限的。因此,本文将随机概率模型张块体理论,研究了三峡永久船闸边坡关键块体的肖落概率和块体的大小及分布密度,结果表明该方法具有重要的工程实用价值。 相似文献
18.
由侏罗系千佛岩组砂岩、泥岩及炭质页岩组成的软硬相间的互层边坡,受不同岩层工程特性的影响,开挖引起不同部位岩体产生拉裂、松弛及沿软弱结构面的蠕滑等变形。为分析地层岩性对边坡稳定性的影响,对侏罗系千佛岩组地层进行工程地质岩组划分,分为薄层泥岩与中薄层砂岩互层岩组、巨厚层砂岩夹中厚层砂岩和薄层泥岩岩组。在此基础上,通过对边坡岩体结构的详细研究,确定了控制边坡稳定性的结构面为层间软弱夹层,进而对边坡表层碎裂岩体、结构面组合形成的块体稳定性进行分析,结果表明,边坡浅层岩体整体稳定性差,局部处于极限平衡状态,深部岩体稳定性相对较好,边坡稳定性的岩体结构分析结果与边坡变形状况吻合。 相似文献
19.
Soil-rock mixtures (S-RM) are widely distributed in mountainous regions, and there are different genetic types and scales of S-RM slopes. The stability of these slopes is very important for slope safety during the construction and operation of engineering projects. Since the mechanical properties of an S-RM are mainly dominated by its random component, accurately investigating the structure of an S-RM slope is the fundamental basis for evaluating the mechanism of a landslide. In this paper, in situ direct shear tests are used to obtain the “soil” strength parameters of the S-RM, the microtremor survey method (MSM) is introduced to detect the S-RM slope and the numerical method of FEM is utilised to simulate the failure characteristics and stability of the S-RM slope. Based on the MSM, the strata structure and proportions of solitary rock blocks in the S-RM slope are investigated, and three possible models of the S-RM slope are established. By using the strength reduction method in numerical simulations, the potential failure surface and stability of a slope of homogeneous soil and that with solitary rock blocks are discussed. The study results show that the MSM is an effective method to estimate the proportion of rock blocks in the S-RM slope. The presence of solitary rock blocks makes the slope potential slide surface complicated. The factor of safety of the S-RM slope is higher than that of the homogeneous soil slope, the rock blocks at the toe of the slope are favourable for slope stability and the rock blocks near the surface of the slope squeeze the lower soil and improve the safety factor of the slope. 相似文献
20.
通过系统分析边坡工程地质条件及岩体结构,采用定性分析结合有限元模拟研究了边坡变形破坏模式,并采用块体理论及极限平衡法系统分析边坡局部及整体稳定性。结果表明,切向边坡的变形破坏模式可以分为两类:深层变形破坏为受层间软弱夹层空间展布特征控制的块体失稳,浅表层破坏为局部块体失稳及强风化强卸荷带岩体沿最大剪应力带的滑移-拉裂变形。稳定性分析结果认为边坡浅表层岩体稳定性差,但发生深层破坏的可能性较小。 相似文献