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1.
三峡库区千将坪滑坡高速滑动机制研究   总被引:5,自引:0,他引:5  
肖诗荣  刘德富  胡志宇 《岩土力学》2010,31(11):3531-3536
2003年7月13日,三峡水库初期蓄水至135 m高程30 d之际,在三峡库区秭归县发生了三峡库区的第一个水库滑坡,滑坡方量达1 500万m3,最大滑速达16 m/s,最高涌浪达24.5 m。滑坡造成10人死亡,14人失踪,摧毁129间民房以及4个工厂,致1 200人无家可归。千将坪滑坡发生后,为了预测三峡库区及世界其它水库工程可能发生的同类高速滑坡,持续数年研究千将坪滑坡的高速滑动机制,通过理论分析及数值模拟,探索了千将坪滑坡的高速滑动机制,认为千将坪滑坡具有孕育高速滑坡的典型结构特征,滑坡滑带的峰残强降差是滑坡高速启动的根本原因,高陡边坡蕴藏的高势能及滑带液化是滑坡加速高速滑动的主要原因。  相似文献   

2.
三峡库区木鱼包滑坡自2006年实施专业监测以来,一直持续变形,对三峡大坝工程和长江航道造成巨大威胁。通过多次野外地质调查资料、长期现场巡查、人工GPS位移监测数据、近1年的全自动监测数据等,深入分析该滑坡在库水涨落及降雨条件下的变形特征、演化规律及变形机制。结果表明,滑坡坡体结构、岩性及地质构造等地质因素控制了木鱼包滑坡的变形,库水位是主要的驱动因素。库水位上升过程中,库水位由145 m升到155 m左右,月位移量为最小值;动水压力向坡内,滑坡变形最小;库水位155 m上升至175 m期间,库水入渗前部坡体,对滑坡前部抗滑段形成浮托减重效应,变形有所增加。库水位由175 m下降到170 m左右,累积位移形成阶跃,坡受向坡外动水压力和浮托减重效应作用,月位移达最大值。库水位由170 m降到145 m期间,浮托减重效应作用减小,月位移量降低。目前,木鱼包滑坡变形趋势减小,产生大规模滑动的可能性较小,但须进一步加强监测和机制研究。  相似文献   

3.
Due to the periodic rising and falling of the reservoir water level, the rock–soil body of bank slope is constantly changing between the saturated and unsaturated status, which changes the limit equilibrium condition of the slope body, resulting in a large number of dormant landslide reactivation and new landslide generation after water impounding operation of the three gorges reservoir. Based on the long-term monitoring data of pore-water pressure, water content, reservoir water level, rainfall and landslide deformation, the deformation response regularity of Liujiaba landslide under the fluctuating reservoir level combined scenario is studied in this paper. The results show that the landslide deformation is mainly in the lower section affected by the fluctuation of the reservoir water. The slide deformation appears in the mid-early stage of the water level declining and during the running of 175 m water level. The deformation is gradually increasing from a slowly to rapidly stage, then slows down and gradually reduces to a relative stopped state. Considering that the variation of the saturation line in the landslide will be influenced by the water level fluctuation rate, the SEEP and SLOPE modules are used with Geo-studio software for the fluctuant reservoir level and response pattern of landslide deformation analysis. The study can be provided as a reference for landslides study of debris aggradational landslide.  相似文献   

4.
三峡大坝自2003年蓄水以来,库区形成大量涉水滑坡。长江三峡库区的浮托减重型滑坡随库水位升降,变形非协调性增加,此类滑坡变形与库水位关系的不明确性,为其监测预警预报工作带来困惑。以木鱼包滑坡为研究对象,通过全自动GPS变形监测系统获取的滑坡监测资料,结合多次的野外考察、15年专业监测和库水位升降等资料进行分析,运用有限元软件Geo-studio进行数值模拟,模拟库水位以不同速率在175~145m间升降下对滑坡稳定性的影响。研究表明:(1)库水位由145m升至175m的过程中,滑坡的稳定系数变化为先减后增再减,库水上升速率越大,前期稳定系数减小的时间段越小,随后稳定系数增加的速率也越快;(2)在库水位由175m下降到145m的过程中,整个稳定系数变化趋势为先减小后增大,呈“V”字形,存在一个最危险水面,不同的库水下降速率对应的最危险水面高度也不一样,库水位以0.4,0.6,0.8,1.0,1.6m/d的速率下降时对应的最危险水位分别在169.8,167.8,162.6,162.0,162.2m左右;(3)木鱼包滑坡作为三峡库区典型的浮托减重性滑坡,在库水位大幅度及周期性升降的影响下,一直保持着蠕滑状态,平均日位移量为0.4mm/d,目前处于基本稳定状态。所得结论对三峡库区浮托减重型滑坡预警预报工作有一定的参考与借鉴意义。  相似文献   

5.
A strong earthquake (M J 6.9, M W 6.6–6.7) at about 11 km depth hit the western shore of the Noto Peninsula on Honshu, Japan, at about 00:42 coordinated universal time (9:42 a.m. local time) on 25 March 2007 (the Noto Hanto Earthquake in 2007). The earthquake triggered only 61 landslides, with most traveling short distances. It caused one long run-out landslide in the Nakanoya district of Monzen town, Wajima city, Ishikawa Prefecture, when a portion of a deep-seated landslide transformed into a moderate debris slide down a channel. The rock slide occurred on a south-facing convex-shaped slope on a small spur where earthquake ground shaking likely was strongly amplified by topography. A portion of the rock slide reached a small channel floored by materials containing abundant groundwater. Constant-volume box-shear tests on normally consolidated saturated specimens revealed that the apparent angle of internal friction of the channel-floor material was 33–36° at 10-mm shear displacement and did not show much decrease in effective normal stress during shearing. In situ rock-sliding testing on the exposed channel materials showed a low kinetic-friction angle of about 21°. We suggest that an unsaturated portion of the rock slide slid down the channel, with sliding between the rock-slide mass and the channel floor. Because the slope angle of the travel path nearly equaled the kinetic-friction angle, the unsaturated rock slide mass may have traveled at a moderately slow speed, or it might have decelerated and accelerated. Slow speed is supported by accounts from local residents that suggest movement of debris continued for 3 days after the main shock.  相似文献   

6.
A mathematical model is developed for the dynamic analysis of earthquake‐triggered rapid landslides, considering two mechanically coupled systems: (a) the accelerating deformable body of the slide and (b) the rapidly deforming shear band at the base of the slide. The main body of the slide is considered as a one‐phase mixture of Newtonian incompressible fluids and Coulomb solids sliding on a plane of variable inclination. The evolution of the landslide is modeled via a depth‐integrated model of the Savage–Hutter type coupled with: (a) a cyclic hysteretic constitutive model of the Bouc–Wen type and (b) Voellmy's rheology for the deformation of the material within the shear band. The original shallow‐water equations that govern the landslide motion are appropriately reformulated to account for inertial forces due to seismic loading, and to allow for a smooth transition between the active and the passive state. The capability of the developed model is tested against the Higashi–Takezawa landslide. Triggered by the 2004 Niigata‐ken Chuetsu earthquake, the slide produced about 100m displacement of a large wedge from an originally rather mild slope. The mechanism of material softening inside the shear band responsible for the surprisingly large run‐out of the landslide is described by a set of equations for grain crushing‐induced pore‐water pressures. The back‐analysis reveals interesting patterns on the flow dynamics, and the numerical results compare well with field observations. It is shown that the mechanism of material softening is a crucial factor for the initiation and evolution of the landslide, while viscoplastic frictional resistance is a key requirement for successfully reproducing the field data. Copyright © 2009 John Wiley & Sons, Ltd.  相似文献   

7.
Typhoon-triggered landslides deliver huge amounts of sediment to the upstream channel of the Shihmen Reservoir in northern Taiwan. Observation data regarding landsliding, sediment discharge and water turbidity following five major typhoon events from 1985 to 2006 demonstrated that each time water turbidity in the reservoir area rapidly increased up to ten-fold from the river catchment drainage, and the weight of landslide debris exceeded total sediment discharge five-fold. The fact that huge amounts of landslide debris still remained on upstream slopes and water turbidity suddenly increased in the reservoir area but not in upstream channel implied that the increasing water turbidity in the Shihmen Reservoir was indirectly related to the large landslides occurring in the upstream catchment. The main cause of high turbidity in the reservoir area was that, during a typhoon event, high water discharge flowing into the reservoir scoured the fine fraction sediment at the bottom of the reservoir and formed hyperpycanl flow with high turbidity, which then ascended to contaminate the reservoir surface water.  相似文献   

8.
甲西滑坡位于雅砻江中游某大型水电站水库库尾,是该区典型的一种滑坡类型。研究该滑坡的形成机制,对认识该区斜坡的变形破坏规律,评价库区斜坡的稳定性具有重要意义。该滑坡发育于由中薄层状砂岩与薄层状板岩互层组成的中陡倾角反向层状结构斜坡中,其变形破坏机制为倾倒弯曲-拉裂型。地质分析及简化毕肖普法稳定性计算结果表明,滑坡堆积体在自然状态下处于潜在不稳定状态,在特大暴雨和洪水作用下滑坡前缘有较大规模滑塌失稳的可能,但水库2 870 m蓄水位对滑坡的稳定性不起主导作用。  相似文献   

9.
A full-scale landslide experiment was conducted to clarify the failure process of a landslide triggered by rainfall, using a loose sandy soil. The experiment used a 23-m long and about 8-m high flume, consisting of three parts: an upper 30° slope section, a lower 10° slope section, and a horizontal section at the foot of the slope. The flume was sprinkled at a constant intensity of 100 mm/h. The landslide occurred first in the upper slope about 154 min after the sprinkling started, following a creep movement within 41 min. The sliding mass slid to a stop in about 5 s, compressing soils in the lower gentle slope and horizontal sections. The dynamic process related to slide movement and the fluctuation of subsurface water pressures during failure were measured and analyzed. Sequential visual observations provided a clear record of the slip surface during failure. The rapid increase of subsurface water pressure in the slope and horizontal soil layers was also recorded during failure. It was inferred that the increased water pressures in the upper slope resulted from collapse of loose soil structure during shearing in the translational slide, whereas those in the lower portion of the slope and horizontal sections resulted from a mix of soil compression and shearing by the sliding mass.  相似文献   

10.
《Engineering Geology》2004,73(3-4):193
In two events, on November 15 and 17, 2000, near the Mangart Mountain (2679 m a.s.l.), NW Slovenia, two translational landslides (debris flow slides) with a total volume of more than 1.5 million m3 occurred on the Sto e slope composed of morainic material filled with silt fraction. The first landslide was associated with a dry and the second landslide with a wet debris-flow, respectively. The rain gauging station in the village of Log pod Mangartom recorded 1638.4 mm of rainfall (more than 60% of the average annual precipitation) in the 48 days before the events (rainfall intensity of 1.42 mm/h in 1152 h). The recorded rainfall depth has a recurrence interval of more than 100 years. Other recorded rainfall depths of shorter duration (481.6 mm in 7 days, 174.0 mm in 24 h, 70 mm in 1 h) have recurrence intervals of much less than 100 years. A hydrological analysis of the event showed that the increase in runoff coefficients during the wet period in autumn 2000 before the landslide was as high as two- to threefold. An analysis using natural isotopes of δ18O and tritium of water samples from the Sto e landslide area has shown permanent but slow exfiltration of underground waters from a reservoir in the slope. In the case of low-intensity and long-duration rainfall in autumn 2000, relatively low permeable (10−7 m/s) morainic material was nearly saturated but remained stable (average porosity 21%, water content 20%, liquid limit 25%) until high artesian pressures up to 100 m developed in the slope by slow exfiltration from the relatively high permeable (10−5 m/s) massive dolomite. The Sto e landslide (two debris flow slides) was triggered by high artesian pressures built in the slope after long-duration rainfall. The devastating debris-flows formed from the landslide masses by infiltration of rainfall and surface runoff into the landslide masses and by their liquefaction.  相似文献   

11.
More than 5000 landslides or potential landslides have been induced in the Three Gorges Reservoir (TGR) region since the impoundment in 2003, which have caused great damage and remain a huge threat to the dam and people living in the reservoir area. Understanding the deformation characteristics and failure mechanism of the landslides can be helpful in stability evaluation and landslide prediction. The primary aim of this study is to research the characteristics of the landslide motion and its relationships with environmental triggers, taking the Quchi landslide, a large, slow-moving, reactivated landslide in the TGR region, as an example. The instability clearly showed visible signs of movements since 2002, and after that, the slope has been experiencing persistent deformation. By combining 4 years of meteorological, hydrological data with displacement measurements from open fractures, deep boreholes, and surface points, as well as in situ observations, this paper reports the geological and geotechnical investigations performed to define the movement. The deformation is believed to be governed by reservoir water levels, while the precipitation has a minor effect. Seasonally, the slope movement has a very distinctive pattern with large deformation starting abruptly right after reservoir drawdown in June and lasting into late summer (September). Then there is a rapid transition to constant deformation (almost no displacement) as the reservoir level rises. The slope displacements appear to gradually increase every year, which suggests very high possibility of the large and overall failure of the slide. Both monitoring results and geomorphological observations have highlighted that the two active slide masses Q1 and Q2 would probably collapse in different kinematic evolution modes, i.e., the multistage failure and whole sliding motion.  相似文献   

12.
黄腊石滑坡是发育在三叠系中统巴东组砂泥岩夹灰岩构成的逆倾坡上的滑坡群,总方量约1 800×104 m3.滑坡滑带下面存在着大致连续分布的基岩弯曲松弛带.对于该松弛带工程地质特性的认识,将影响防治工程方案的设计及实施.本文通过野外工作、以往工作资料和研究成果的收集整理及再认识,对该滑坡下伏松弛带工程地质特性、形成机制及失稳预测作了一定深度的探讨,认为基岩弯曲松弛带是发生在特定的岩层中,由构造、重力、侵蚀、岩溶、风化、降雨及上部滑坡等因素共同作用的产物,工程地质环境质量较差,受重力及其上滑体滑动等因素影响,后期改造明显.在斜坡长期受重力累积变形、三峡水库运行期江水位变化及库岸再造作用下,将形成牵引式滑动.防治工程应在削方、排水等基础上,重点考虑防止库岸再造和斜坡坡脚部位变形.  相似文献   

13.
三峡库区藕塘滑坡变形失稳机制研究   总被引:1,自引:0,他引:1  
三峡库区藕塘滑坡是巨型顺层基岩古滑坡,滑坡面积1.78km2,体积约9.0107m3,威胁3900余人的生命财产安全,涉及场镇整体搬迁,同时对长江航道形成潜在堵塞隐患,是近年来三峡库区重大滑坡灾害之一。基于大量的现场地质调查及工程地质勘探,详细介绍了滑坡地质地貌及地质结构特征; 充分利用现场监测数据,深入分析了滑坡变形特征; 在此基础上,从地质成因和环境成因两方面对滑坡变形失稳机制展开系统研究,并结合滑坡稳定性计算对其变形发展的趋势进行了预测。相关的结论主要包括:(1)该滑坡具有多级多期次滑动特征,主要表现为三级滑动,且空间形态具有视向倾斜滑动的特征; (2)特殊的地形地貌、地层岩性及地质构造等因素是滑坡长期孕育形成的地质内因; (3)库水位周期性波动及集中降雨是诱发滑坡复活变形的环境外因,研究表明该滑坡变形与库水位下降及集中降雨的相关性显著; 库水位下降导致坡体内外地下水落差形成指向坡外的渗透压力,促进滑坡体变形; 集中降雨则增加滑坡体自重和下滑力,并使得大量的水富集于易滑软层,软化滑带土,促使滑坡蠕动变形加速; (4)三级滑坡体与西侧变形区在极端工况下存在欠稳定状态可能性,推断现阶段滑坡以局部失稳破坏形式为主。鉴于此,建议进一步加强监测,采取相应的工程防治措施。  相似文献   

14.
The Qianjiangping landslide is a large planar rock slide which occurred in July 14, 2003 shortly after the water level reached 135 m in the Three Gorges Reservoir, China. The landslide destroyed 4 factories and 129 houses, took 24 lives, and made 1,200 people homeless. Field investigation shows that the contributing factors for the landslide are the geological structure of the slope, the previous surface of rupture, the water level rise, and continuous rainfall. In order to reveal the mechanism and failure process of the landslide, numerical simulation was conducted on Qianjiangping slope before sliding. Based on the characteristics and the engineering conditions of the landslide, the topography and the geological profiles of Qianjiangping slope before sliding is reconstructed. The seepage field of Qianjiangping slope before sliding was simulated with the Geostudio software. The results show that ground water table rises and bends to the slope during the rise of water level, and the slope surface becomes partially saturated within the period of continuous rainfall. Using the ground water table obtained above, the failure process of Qianjiangping slope is simulated with the Flac3D software. The results demonstrate that the shear strain increment, displacement, and shear failure area of the slope increased greatly after the water level rose and continuous rained, and the landslide was triggered by the combined effect both of water level rise and continuous rainfall. The development of shear strain increment, displacement, and shear failure area of the slope shows that the landslide was retrogressive in the lower part of the slope and progressive in the upper part of the slope.  相似文献   

15.
赵永红  王航  邓凯  李小凡 《岩石学报》2016,32(7):2217-2224
三峡工程是迄今为止最大的水利工程,对库区滑坡灾害的监测和机制研究一直是重要的研究课题。本文利用Terra SAR-X的强度图进行相关计算,求解出2009年5月20日至8月5日期间三峡树坪滑坡的形变场。该形变场特征和树坪滑坡体的地形特征吻合甚好,位移大小、方向和三峡大学对滑坡体的野外观测结果基本吻合。以此高精度位移场为外部约束,结合野外观测资料对滑坡体介质力学性质进行分类并选取边界条件,利用有限元方法对滑坡活动进行动力学计算模拟。计算过程中对滑坡体的滑动面形状、因降雨引起材料参数变化和三峡水库水位等因素分别反演和调整,得出符合其变形和发展过程的滑坡动力学特征。发现软弱带的物性参数决定滑坡体总体滑动量,滑坡体的物性参数决定位移分布的峰值位置。在确定了滑坡动力学特征之后,进一步讨论降雨和库区水位下降对滑坡产生的贡献权重,得出降雨是树坪滑坡的决定因素。  相似文献   

16.
三峡库区涉水滑坡众多,目前库岸滑坡空间发育规律及其影响因素尚不明确.收集三峡大坝至库尾江津长江两岸593处滑坡相关资料,选取地层岩性、斜坡结构、高程与坡度作为滑坡关键控制因素及库水作用这一诱发因素.沿三峡大坝追溯至库尾,根据不同影响因子把干流库岸进行分段研究,统计滑坡在各影响因子中的分布特征,分析其分布规律及内在机理,可得以下结论:(1)受不同岩组的工程地质性质差异,干流库岸稳定性差异较大,造成滑坡在空间分布上呈显著区域差异性与分带性特征;(2)在同一岩组的左、右两岸或上下游段滑坡发育密度呈明显局部差异性,其主要受斜坡结构影响,顺向坡中发育密度明显高于横向坡与逆向坡;(3)由于地形地貌条件及库水作用影响,滑坡后缘高程与坡度由库首至库尾逐渐降低,而前缘主要集中于100~175 m,滑坡复活变形的最主要诱发因素为库水位升降作用,当水位作用于滑坡中前部时影响效果最明显,影响时效随着滑坡逐年变形应力调整后逐渐减弱.研究结果为三峡库区滑坡防治提供了一定依据.   相似文献   

17.
库水位变动是诱发库岸边坡变形失稳的主要因素。为探究库水位变动下倾倒变形岩体破坏后形成的堆积体斜坡的地下水动力作用,以云南澜沧江的苗尾水电站赵子坪滑坡为研究对象,通过现场地质调查和勘探确定了滑坡形态和坡体结构特征;再结合监测数据深入分析了滑坡在地下水动力作用下的变形失稳机制,并基于非饱和土力学理论和有限元法对其失稳机制进行进一步验证。结果显示:赵子坪岸坡为原始倾倒岩体变形破坏后上部强倾倒岩体沿着折断面发生滑动而形成的堆积体斜坡,内部呈层状堆积的片石表明其还保留了部分倾倒岩体的结构特征。水库蓄水后,由于松散的倾倒堆积体为库水渗入坡体创造了良好的条件,地下水位随库水位升高而快速升高,导致孔隙水压力增大而滑坡阻滑段有效应力减小,从而造成稳定性降低,滑坡易沿着由倾倒折断面演化而成的基覆界面发生滑动破坏。  相似文献   

18.
湖北巴东长江公路大桥斜坡稳定性研究   总被引:1,自引:1,他引:0  
刘佑荣  贾洪彪  唐辉明  周丽珍 《岩土力学》2004,25(11):1828-1831
巴东长江大桥是连接209国道和巴东县长江两岸新城区的特大型公路大桥,为一简支梁斜拉桥,长900.5 m,主桥跨度388 m,桥塔高218 m,桥荷重大,安全等级高。桥位区地处长江三峡地质条件最复杂的地区,地形陡峻,河谷切割强烈,褶皱断裂密集,岩体破碎、力学性质差,滑坡、泥石流极为发育,其斜坡稳定性直接关系到大桥的安全。在分析论述桥位区斜坡工程地质条件的基础上,采用非线性弹塑性有限元及块体极限平衡理论模拟了斜坡稳定性,预测了三峡水库蓄水及大桥建成后斜坡稳定性的发展趋势。研究表明:桥荷载、库水位波动和地震是影响斜坡稳定性的诱发因素。水库蓄水及大桥建成后桥位区两岸斜坡稳定性明显变差,有沿T2b3/T2b2岩层交界面失稳的可能,必须加以处理。在分析了斜坡变形破坏对大桥的影响后,提出了处理措施的建议。  相似文献   

19.
Lithology variation is known to have a major control on landslide kinematics, but this effect may remain unnoticed due to low spatial coverage during investigation. The large clayey Avignonet landslide (French Alps) has been widely studied for more than 35 years. Displacement measurements at 38 geodetic stations over the landslide showed that the slide surface velocity dramatically increases below an elevation of about 700 m and that the more active zones are located at the bottom and the south of the landslide. Most of the geotechnical investigation was carried out in the southern part of the landslide where housing development occurred on lacustrine clay layers. In this study, new electrical prospecting all across the unstable area revealed the unexpected presence of a thick resistive layer covering the more elevated area and overlying the laminated clays, which is interpreted as the lower part of moraine deposits. The downslope lithological boundary of this layer was found at around 700 m asl. This boundary coincides with the observed changes in slide velocity and in surface roughness values computed from a LiDAR DTM acquired in 2006. This thick permeable upper layer constitutes a water reservoir, which is likely to influence the hydromechanical mechanism of the landslide. The study suggests a major control of vertical lithological variations on the landslide kinematics, which is highlighted by the relation between slide velocity and electrical resistivity.  相似文献   

20.
Reservoir landslides pose a great threat to shipping safety, human lives and properties, and the operation of the hydropower station. In this paper, the 24 June 2015 Hongyanzi landslide at the Three Gorges Reservoir is considered as an example to study the initiation mechanism and landslide-generated wave process of a reservoir landslide. The finite difference method and limit equilibrium analysis are used to analyze the deformation and failure characteristics of the Hongyanzi slope. Simulation results show that a large deformation (about 358 mm) happens in the shallow deposits under intermittent rainfall condition, and the slope is in a limit state. At the same time, continuous rapid drawdown of the water level (about ?0.55 m/day during 8–24 June 2015) reduced the support and accelerated the drainage of the water for the bank slope. A coupling effect of intermittent rainfall and rapid drawdown of the water level was the triggering factor of the 24 June Hongyanzi landslide. Landslide-generated wave process was simulated using a fluid–solid coupling method by integrating the general moving object collision model. Simulation results show that the landslide-generated wave is dominated by the impulse wave, which is generated by sliding masses entering the river with high speed. The maximum wave height is about 5.90 m, and the wave would decay gradually as it spreads because of friction and energy dissipation. To prevent reservoir landslides, the speed for the rising or drawdown of the water level should be controlled, and most importantly, rapid drawdown should be avoided.  相似文献   

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