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1.
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
2.
降雨在松散堆积土中入渗引起内部水土力学的变化是影响稳定性的关键。目前研究多侧重考虑颗粒粒径、含量等因素对斜坡破坏的影响,但是针对斜坡体内部水土响应及稳定性时空演化方面的研究存在不足。基于野外滑坡案例,通过室内降雨滑坡模型试验、土力学试验和理论分析手段,研究了降雨触发松散堆积体斜坡变形破坏过程及模式,采用Van Genuchten模型(VG模型)重构了土体的土-水特征曲线,重点探究了斜坡内部水土力学变化以及稳定性时空演化规律。结果表明:(1)堆积体斜坡破坏经历了微裂隙发育-局部破坏-整体破坏3个阶段,呈现出“初期拉裂-坡面坍塌-塑性滑动”的破坏模式;(2)入渗过程斜坡体积含水率以及孔隙水压力急速增加,而土颗粒之间基质吸力下降甚至消散,促进了斜坡破坏发展;(3)土体力学强度随体积含水率升高呈指数下降,体积含水率为36.3%时,有效黏聚力和有效内摩擦角仅为0.27 kPa、3.39°;(4)基于极限平衡理论和斜坡土水特征监测数据,构建了斜坡稳定性时空演化图谱,与模型试验破坏特征有较好的一致性。研究结果对降雨作用下的堆积层斜坡监测预警与防灾减灾提供理论支撑。 相似文献
3.
斜坡临滑形变能释放与滑体起程速度关系的探讨 总被引:1,自引:1,他引:0
斜坡内聚集的巨大剪切形变能在临滑时释放,坡体能量释放率具有力的量纲,在坡体能量释放率幅值大于锁固段潜滑带抗剪强度幅值的情况下,坡体临滑释放的形变能将大于潜滑带岩体破裂需要的能量,所大于的部份将转变成滑体动能,滑动为剧动式滑坡;反之,则为缓动式滑坡。剧动式滑坡横截面上的弹冲速度与该点切应力的大小成正比。潜滑面附近坡体介质的切应力和切应变能密度最大,滑动时获得的弹冲速度也最大。导得蕴涵丰富信息量的斜坡弹性势能变化率曲线及其表达式,通过解析及Matlab图解形式对坡体的形变能聚集、临滑形变能释放量及其与滑体启动速度、启动方式进行了阐述。 相似文献
4.
A dry debris avalanche will produce different volumes of colluviums or depositions (loose materials), which can have a significant impact on mountainous rivers or gullies. The loose material supply process caused by a debris avalanche is an important issue for understanding secondary disasters that form via the coupling of water flow and loose materials. Two flumes were designed for laboratory tests of the loose materials supply process to rivers/gullies, and the related impact factors were analyzed. Experimental results show that the supply of loose materials is a continuous process that directly relates to the avalanche’s mass movement processes. The sliding masses with smaller particle sizes are more sensitive to the flume slope and exhibited a longer supply time. The time-consuming for the debris avalanche travel in the flume decreased with the increasing particle size (such as flume B, time-consuming is decreased 0.2 s when the particle size increased from <1.0 to 20–60 mm), landslide volume and flume slope (flume A, consuming 1.6–2.1 s when flume slope is 29° decreased to consuming 1.3–1.5 s when flume slope is 41°), which means the increasing mobility of loose materials. The total supply time increased with the increasing landslide volume or decreasing particle size and flume slope. An empirical model for the process is presented based on numerous laboratory tests and numerical simulations, which can successfully describe the supply process for loose materials to a river/gully. The supply process of loose materials to mountainous gully from a dry debris avalanche is controlled by the material compositions of sliding masses, topographical conditions, landslide volume and bed friction, where large-volume debris avalanches that occur in mountainous river regions are more likely to obstruct the river flow and form a landslide-dammed lake. 相似文献
5.
A full-scale landslide-triggering experiment was conducted on a natural sandy slope subjected to an artificial rainfall event, which resulted in mobilisation of 130 m3 of soil mass. Novel slope deformation sensors (SDSs) were applied to monitor the subsurface pre-failure movements and the precursors of the artificially triggered landslide. These fully automated sensors are more flexible than the conventional inclinometers by several orders of magnitude and therefore are able to detect fine movements (<?1 mm) of the soil mass reliably. Data from high-frequency measurements of the external bending work, indicating the transmitted energy from the surrounding soil to these sensors, pore water pressure at various depths, horizontal soil pressure and advanced surface monitoring techniques, contributed to an integrated analysis of the processes that led to triggering of the landslide. Precursors of movements were detected before the failure using the horizontal earth pressure measurements, as well as surface and subsurface movement records. The measurements showed accelerating increases of the horizontal earth pressure in the compression zone of the unstable area and external bending work applied to the slope deformation sensors. These data are compared to the pore water pressure and volumetric water content changes leading to failure. 相似文献
6.
池永翔 《中国地质灾害与防治学报》2008,19(1):28-31
文章在分析福建周宁县马头山滑坡的地质环境条件的基础上,阐述了滑坡的形态、滑面滑床特征和变形特征以及气象水文、地形地貌和人类工程活动等内外营力对该滑坡的影响,并对滑坡的形成过程和机理进行了详细分析。研究结果表明,该滑坡形成过程及机理为:开挖-滑带土浸水软化、抗剪强度降低或丧失-坡面、坡顶开裂和坡脚剪切破坏-剪切破坏区向上发展与后缘张裂隙贯通-滑面贯通、滑坡产生。根据定量分析计算,在连续降雨或暴雨条件下,该滑坡整体超过临界稳定状态而处于不稳定状态,滑坡可能继续失稳破坏。根据滑坡特征,提出了采取削坡减载、排水及坡面防护的综合治理方案。 相似文献
7.
2008年汶川Ms8.0级强震触发了体积近12×108 m3的大光包滑坡。该滑坡发生于古生代碳酸盐岩地层,滑带地质背景为斜坡内部深埋400 m、最大厚度达5 m的先期层间构造错动带。最新调查表明,该错动带是斜坡内部地下水通道,错动带岩体处于饱和状态。为揭示强震过程与地下水相关的大光包滑坡启动机制,提出了一种具有软弱层带的硬质碳酸盐岩边坡简化模型,将层间构造错动带概化为碳酸盐岩硬层内部软弱层带,采用FLAC3D程序中的流固耦合算法模拟了模型的响应特性。研究结果表明:强震过程中软弱层带上下碳酸盐岩硬层的变形响应时间、波型、大小出现明显差异,上硬层相对于下硬层产生了张离、压缩和剪切3种非协调变形模式,由此对软弱层带产生了振动冲压-张拉和振动剪切动力学行为,饱水软弱层带形成了具有瞬间放大和累积增涨特征的超孔隙水压力。这里将上下硬层差异性变形称为非协调变形,认为非协调变形是软弱层带应力放大成因,推测软弱层带应力瞬间放大以及放大应力长持时作用下的岩体致损是超孔隙水压力激发和累积的成因;强震过程软弱层带超孔隙水压力导致其内有效应力快速降低,使得斜坡前部锁固段应力快速集中,而后被突然剪断,滑坡骤然启动,揭示了强震过程中超孔隙水压力是大光包滑坡启动的主要原因。 相似文献
8.
Mechanism and failure process of Qianjiangping landslide in the Three Gorges Reservoir,China 总被引:4,自引:1,他引:3
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
9.
Jonathan Peter McKenna Paul Michael Santi Xavier Amblard Jacquelyn Negri 《Landslides》2012,9(2):215-228
Some landslides mobilize into flows, while others slide and deposit material immediately down slope. An index based on initial dry density and fine-grained content of soil predicted failure mode of 96 landslide initiation sites in Oregon and Colorado with 79% accuracy. These material properties can be used to identify potential sources for debris flows and for slides. Field data suggest that loose soils can evolve from dense soils that dilate upon shearing. The method presented herein to predict failure mode is most applicable for shallow (depth <5?m), well-graded soils (coefficient of uniformity >8), with few to moderate fines (fine-grained content <18%), and with liquid limits <40. 相似文献
10.
为探索黄土-基岩型滑坡的降雨响应机制,以麟游县岭南滑坡为例,利用滑坡宏观变形破坏数据、岩土体测试与模拟计算相结合的方法,讨论了暴雨、连阴雨下岭南滑坡的地下水水位响应特征,相应应力路径下土体应力应变特征,对黄土-基岩型滑坡的破坏机制进行了研究。初步揭示:(1)滑坡体为粉质黄土状黏土,滑床为砂砾岩,渗透系数小,具有隔水性质。(2)黄土泥流与块体滑动是岭南斜坡的主要运动失稳方式。暴雨天气时黄土泥流频发,块体滑动的出现与连阴雨有关。(3)与降雨103mm的暴雨天气相比,连续降雨235.5mm,斜坡地下水位明显升高。(4)滑坡体粉质黄土状土具有剪胀特征。在暴雨背景下,表层土体孔隙水压力易消散,诱发低速运动的黄土泥流; 在连阴雨背景下,地下水水位以下的滑动面剪切破坏过程中,剪胀孔隙被地下水迅速补充,诱发的剧烈块体滑动,具有高危险性。 相似文献
11.
2012年6月29日,岑巩县思旸镇大榕村突发大型滑坡灾害,约310104m3。大榕滑坡为古滑坡堆积区失稳。基于滑坡破坏特征分析和地质原型分析,定性判断滑坡失稳模式为蠕滑-拉裂-牵引式滑移。滑坡启动区在不合理人工填土及强降雨作用下,坡脚蠕滑并发展为失稳,由此导致主滑区坡脚支撑作用明显减弱,主滑区中下部因此滑移失稳,并牵引右侧主滑体中上部坡体逐步失稳。滑带主要位于下伏强风化基岩中。主滑体左侧向西滑移,右侧主体向SW向滑移。基于渗流场-应力场耦合数值分析,再现了滑坡失稳过程及发生机理。大榕滑坡形成机制深入研究对于西部山区类似滑坡分析及识别具有重要的参考价值。 相似文献
12.
廖家坪高陡斜坡详细勘查结果表明廖家坪坡体上分布有7层软弱层,发育有两组高倾角节理,相互垂直,形成众多危岩体岩柱。上部软弱层为蠕滑层,悬崖壁存在的众多危岩体及岩柱以软弱层为基底。根据平推式滑坡的变形失稳机理分析,计算其起动临界水头高度,认为该斜坡上部坡体平推式滑动的可能性较小。根据工程地质类比法认为由于基础风化压缩,也可造成硬岩拉张,形成次生倾倒破坏;采用离散元分析验证了廖家坪高陡斜坡倾倒破坏演化过程,模拟结果与野外调查的变形破坏现象完全一致,表明该高陡斜坡的变形破坏机制为倾倒失稳模式。这一破坏模式的判定为廖家坪高陡斜坡的稳定性分析和防治提供了重要依据。 相似文献
13.
丁家坡滑坡位于云阳县黄石镇中湾村,对拟建的云阳—开州(云开)高速公路安全具有潜在的威胁。为了查明丁家坡滑坡特征,开展了野外工程地质测绘、钻探与试验测试,采用Geo-studio完全耦合计算模式分析了不同降雨工况下滑坡渗流场、应力场、位移场的变化,考察了基质吸力在滑坡稳定性评价中的作用,并计算了不同降雨历时、降雨强度下滑坡的稳定性系数。结果表明:(1)丁家坡滑坡的斜坡地形、松散的岩性、潜在的临空面等因素决定了滑坡的形成与发育,坡体渗透性较好,降雨作用激励滑坡的变形,目前该滑坡处于蠕滑阶段;(2)降雨入渗后,坡体孔隙水压力增加,基质吸力减小,有效应力和抗剪强度降低,在土-岩界面形成剪应力集中,产生应变和位移,滑坡变形破坏;(3)高强度短历时的降雨使坡体浅层迅速饱和,易形成浅层滑,低强度长历时的降雨使坡体浸润较深,易造成深部滑动,其潜在滑动面主要为土-岩界面;(4)在非饱和状态下土体基质吸力对滑坡的稳定性具有重要影响;(5)目前滑坡处于基本稳定状态,一旦发生降雨,滑坡稳定性将降低,降雨历时越久、降雨强度越大,滑坡越易失稳。相对于滑坡Ⅱ区,滑坡Ⅰ区对云开高速公路安全的影响更大,应该重点对滑坡Ⅰ区进行防护治理。该研究可为工程设计、施工及滑坡的预警预报提供依据。 相似文献
14.
Suggestion of a method for landslide early warning using the change in the volumetric water content gradient due to rainfall infiltration 总被引:3,自引:2,他引:1
An early warning system can be an effective measure to reduce the damage caused by landslides by facilitating the timely evacuation of residents from a landslide-prone area. Early detection of landslide triggering across a broad range of natural terrain types can be accomplished by monitoring rainfall and the physical property changes of soils in real time or near-real time. This study involved the installation of a real-time monitoring system to observe physical property changes in soils in a valley during rainfall events. This monitoring included the measurement of volumetric water content, which was compared with the results of laboratory flume tests to identify landslide indicators in the soils. The response of volumetric water content to rainfall events is more immediate than that of pore-water pressure, and volumetric water content retains its maximum value for some time before slope failure. Therefore, an alternative method for landslide monitoring can be based on the observation of volumetric water content and its changes over time at shallow soil depths. Although no landslide occurred, the field monitoring results showed a directly proportional relationship between the effective cumulative rainfall and the gradient of volumetric water content per unit time (t/t max). This preliminary study thus related slope failure to the volumetric water content gradient as a function of rainfall. Laboratory results showed that a high amount of rainfall and a high gradient of volumetric water content could induce slope failure. Based on these results, it is possible to suggest a threshold value of the volumetric water content gradient demarcating the conditions for slope stability and slope failure. This threshold can thus serve as the basis of an early warning system for landslides considering both rainfall and soil properties. 相似文献
15.
松散堆积体工程边坡变形机理分析及支护对策研究 总被引:1,自引:0,他引:1
合理选择开挖坡比、正确认识变形破坏机理是影响松散堆积体边坡稳定性和施工安全的前提, 本文研究了西南地区某松散堆积体工程边坡的结构特征, 根据地形条件确定了合理的开挖坡比, 采用二维有限元研究了开挖边坡的变形机理并根据模拟结果确定潜在滑动面, 在此基础上, 提出支护对策。研究结果表明, 边坡由厚度达70m 的坡洪积、泥石流块碎石堆积体组成, 斜坡下部缓中部稍陡, 开挖平台位于缓坡部位, 根据地形条件结合坡体结构特征确定边坡开挖坡比为1: 0. 75; 数值模拟结果表明, 边坡变形开挖面附近及坡顶拉应力和坡体下部最大剪应力控制, 坡顶部位将首先产生拉张裂隙, 开挖边坡内部产生从坡脚部位向上发展的剪切变形, 滑面一旦与坡顶拉裂缝贯通, 边坡将产生整体失稳; 边坡采用锚拉桩、锚索框架、锚杆框架、排水相结合的综合治理措施进行支护。 相似文献
16.
侧向剪切扰动诱发滑坡是一种新型滑坡类型,深入研究其成因机理,有助于开展滑坡预警工作。2012年6月29日6时20分左右,贵州省岑巩县思旸镇龙家坡山体发生大规模滑坡,300~400万 m3岩土体失稳后堵塞坡下的马坡河,形成20余 m高的堰塞坝及库容达7万余 m3的堰塞湖。笔者在对灾害现场进行详细地质调查的基础上,结合现场调绘、航拍、颗分试验等手段,对龙家坡滑坡的基本特征进行了分析研究,对滑坡发生及成灾原因进行了初步分析。结果表明:滑坡区风化破碎的厚层堆积体、有利的岩层倾向以及前缘临空是滑坡发生的基本条件;滑坡区南侧地下水径排区被堆填大量粉黏土弃渣,不仅为该区斜坡人为增加了巨大推力,还使该区斜坡地下水局部富集。在强降雨条件下,南侧堆积区首先发生滑动,其对主滑体的侧向剪切扰动作用带动主滑区大规模失稳破坏。由此,对这类侧向剪切扰动诱发的滑坡,在进行地质灾害调查和预警时,除了应调查其岩土体特征外,还必须查明其边界条件。 相似文献
17.
Failure Mechanism of a Shallow Landslide at Tun-Sardon Road Cut Section of Penang Island,Malaysia 总被引:1,自引:1,他引:0
The occurrences of shallow landslides in residual soils of Penang hilly areas are common in rainy days. The failure mechanisms
of a shallow landslide occurred at km 3.9 road in Tun-Sardon area of Penang Island have been simulated using two different
methods of slope stability analysis. The results indicate that the failure was initiated locally inside the slope and then
propagated further to induce total failure. The failure propagation was started from initial local failure zone and was driven
by mobilized shear strength along the shear plane. The slope was marginally stable with an overall factor of safety of 1.32
before it failed to a rainfall event on September 6, 2008. It is found from back calculation that the rain infiltration raised
the temporary water level and reduced the shearing strength of soil to a minimum level with increased pore water pressure
to trigger the failure. This paper suggests further research on shallow landslide of Penang Island considering the direct
rainfall infiltration effect in terms of groundwater pressure-head distribution inside the slope. 相似文献
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19.
Hong Kong is particularly susceptible to landslide risk due to the steep natural topography and prolonged periods of high intensity rainfall. Compounding the risk of slope failure is the existence of loose fill slopes which were constructed prior to the 1970s by end-tipping. A clear understanding of the underlying triggering mechanisms of fast landslides in fill slopes is required to analyse landslide risk and to optimise slope stabilisation strategies. The work described here had the objective of evaluating two candidate triggering mechanisms—static liquefaction and the transition from slide to flow due to localised transient pore water pressures—against observations of slope behaviour obtained from highly instrumented centrifuge model tests. These results indicate that static liquefaction is unlikely to occur if the model fill is unsaturated and the depth to bedrock large, as the high compressibility and mobility of air in the unsaturated void spaces allows the model fill slope to accommodate wetting collapse without initiating undrained failure. In contrast, high-speed failures with low-angle run-outs are shown to be easily triggered in model fill slopes from initially slow moving slips driven by localised transient pore water pressures arising from constricted seepage and material layering. 相似文献
20.
Deformation response regularity of Liujiaba landslide under fluctuating reservoir water level condition 总被引:1,自引:0,他引:1
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