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1.
为了在离心机试验中模拟降雨引起的滑坡,设计和使用了一套降雨模拟系统。这套系统的构成主要是针对离心试验的特殊要求进行设计的。所采用的特殊技术可以均匀分配雨水,将雨滴的尺寸效益和科氏加速度引起的雨滴偏移最小化,实现了不同强度和历时的降雨模拟。通过一个降雨条件下砂土边坡的离心模型试验,成功应用了该套降雨模拟系统,研究了边坡中的降雨入渗过程。 相似文献
2.
《地学前缘(英文版)》2023,14(1):101490
Rainfall infiltration poses a disastrous threat to the slope stability in many regions around the world. This paper proposes an extreme gradient boosting (XGBoost)-based stochastic analysis framework to estimate the rainfall-induced slope failure probability. An unsaturated slope under rainfall infiltration in spatially varying soils is selected in this study to investigate the influences of the spatial variability of soil properties (including effective cohesion c′, effective friction angle φ′ and saturated hydraulic conductivity ks), as well as rainfall intensity and rainfall pattern on the slope failure probability. Results show that the proposed framework in this study is capable of computing the failure probability with accuracy and high efficiency. The spatial variability of ks cannot be overlooked in the reliability analysis. Otherwise, the rainfall-induced slope failure probability will be underestimated. It is found that the rainfall intensity and rainfall pattern have significant effect on the probability of failure. Moreover, the failure probabilities under various rainfall intensities and patterns can be easily obtained with the aid of the proposed framework, which can provide timely guidance for the landslide emergency management departments. 相似文献
3.
黄土边坡的变形破坏多发生于降雨期间,由此也造成了大量的损失。为减小降雨诱发黄土滑坡的影响,开展降雨型滑坡现场实验研究,具有现实意义。本文选取泾阳一天然黄土边坡为研究对象,利用自行设计的模拟降雨系统,设计并进行了3组不同雨强下的大型黄土边坡人工模拟降雨试验,旨在研究不同雨强条件下天然黄土边坡的入渗规律及变形破坏模式。通过对边坡内埋设的土壤水分传感仪、土压力盒和张力计管的读数变化及试验现象进行分析,进而得出降雨条件下大型黄土边坡现场试验的变形破坏规律,总结出该类边坡的水分入渗规律和变形破坏模式。试验结果表明,边坡入渗呈现一定的规律:降雨条件下,坡肩入渗深度和速率最大,坡脚次之,坡面最小;同时,降雨强度越大,雨水入渗速率越快,入渗时间越长,边坡相同位置处体积含水率和土压力增大幅度越大,基质吸力减小的幅度越大。降雨条件下天然黄土边坡的变形破坏模式为:坡肩侵蚀及侵蚀扩展→坡面裂隙形成扩展→坡肩裂隙形成扩展→局部滑塌;若继续降雨,则坡肩局部裂隙逐渐贯通进而形成滑面,最终导致滑坡发生。 相似文献
4.
预加固高填方边坡滑动破坏的离心模型试验研究 总被引:1,自引:0,他引:1
2009年10月3日,攀枝花机场260×104 m3万方的高填方预加固边坡整体失稳,沿基覆界面下滑,并超覆于其下方的易家坪老滑坡之上,使易家坪老滑坡再次复活。这一填方边坡失稳事件最终导致机场停航两年。通过大型离心模型试验,再现了攀枝花机场预加固高填方边坡的滑动失稳过程,获得了边坡变形破裂的特征参量,阐明了边坡的滑动失稳机制。研究表明:天然工况下,边坡变形以坡顶沉降和沿基覆界面软弱层的蠕滑为主,坡体总体处于蠕滑变形状态;降雨和地下水工况下,坡体中后部拉张破裂和中前部挤压变形显著,具有塑性流动及推移式破坏特征,并最终产生溃滑失稳;预加固抗滑桩承受较大的边坡变形推力,且越靠近坡体后部的桩推力越大,最终从后向前逐排产生累进性剪断破坏,说明该填方边坡多排抗滑桩的平面布置和受力确定欠合理;降雨和地下水工况下,坡体的最大孔隙水压力是天然工况下的3.7倍,孔隙水压力对坡体失稳有重要作用;通过模型和原型的综合对比分析,该边坡的滑动失稳机制为推移式蠕滑-累进性折断-溃滑与超覆。 相似文献
5.
Rainwater infiltration during typhoons tends to trigger slope instability. This paper presents the results of a study on slope
response to rainwater infiltration during heavy rainfall in a mountain area of Taiwan. The Green-Ampt infiltration model is
adopted here to study the behavior of rainwater infiltration on slopes. The failure mechanism of infinite slope is chosen
to represent the rainfall-induced shallow slope failure. By combining rain infiltration model and infinite slope analysis,
the proposed model can estimate the occurrence time of a slope failure. In general, if a slope failure is to happen on a slope
covered with low permeability soil, failure tends to happen after the occurrence of the maximum rainfall intensity. In contrast,
slope failure tends to occur prior to the occurrence of maximum rainfall intensity if a slope is covered with high-permeability
soil. To predict the potential and timing of a landslide, a method is proposed here based on the normalized rainfall intensity
(NRI) and normalized accumulated rainfall (NAR). If the actual NAR is higher than the NAR calculated by the proposed method,
slope failure is very likely to happen. Otherwise, the slope is unlikely to fail. The applicability of the proposed model
to occurrence time and the NAR–NRI relationship is evaluated using landslide cases obtained from the literature. The results
of the proposed method are close to that of the selected cases. It verifies the applicability of the proposed method to slopes
in different areas of the world.
An erratum to this article can be found at 相似文献
6.
降雨条件下松散堆积体边坡稳定性离心模型试验研究 总被引:1,自引:0,他引:1
采用新型介质雾化喷嘴离心场降雨模拟设备,进行了模拟降雨及格栅支护措施条件下松散堆积体边坡的离心模型对比试验。离心机模型与原型试验比尺为1:80,试验过程通过非接触定点高速摄影系统并结合粒子图像测速(particle image velocimetry)技术分析了试验过程中边坡的位移场变化。试验结果表明,松散堆积体边坡在未降雨条件下是十分稳定的;在进行模拟降雨后,边坡顶部沉降及坡面水平位移随降雨量的增大逐渐发展,尤其边坡表面区域发生明显变形;边坡的破坏模式有别于传统的圆弧滑动,在持续强降雨作用下,坡面逐层产生破坏,最终形成泥石流形态;通过采取坡面土工防护格栅支护条件后,堆积体边坡在降雨条件下稳定性显著提高,故采用边坡防护格栅是提高松散堆积体边坡稳定性的有效途径。 相似文献
7.
降雨下边坡开挖支护离心模型试验 总被引:1,自引:1,他引:0
为研究降雨下高速公路高边坡在开挖及运营过程中的变形规律及稳定性,以柳南公路改扩建工程某处典型高边坡为原型,利用大型土工离心机及自主研发降雨装置,开展12组不同开挖-支护时序边坡模型试验,通过对边坡从变形至破坏全过程监测,分析不同支护时序条件对边坡稳定性的影响。结果表明:实时支护能有效抑制边坡在水平和竖向的变形,在边坡开挖至第1级和第6级后,坡顶水平变形分别降低33.9%和30.4%,竖向变形降低54%和11.6%;实时支护对维持降雨下边坡稳定状态非常有利,边坡开挖至第2、4、6级后遭遇降雨,其稳定系数降低了10.1%、5.4%、6.5%;相同降雨量下,无实时支护边坡的稳定系数要比实时支护至少降低50%,说明了实时支护对降雨下边坡稳定性的意义巨大。 相似文献
8.
降雨条件下土坡变形机制的离心模型试验研究 总被引:3,自引:0,他引:3
自行研制了离心场降雨模拟设备,进行了降雨条件下边坡的离心模型试验。试验模型在离心机中加载到50g,然后开始降雨。采用非接触位移测量系统测量了试验过程中边坡的位移场变化,通过T5张力计测量边坡中典型点的吸力变化。试验结果表明,边坡的位移随降雨量的增大逐渐发展,发生明显变形的区域也逐渐变大,主要集中在边坡表面。边坡某处应变迅速变化的时刻与土体含水率迅速增大的时刻相一致。边坡某点的应变随降雨量的增加不断增大,并存在2个拐点,形成湿润锋和稳定锋2个锋面,并把边坡分成3个区域,通过锋面的变化反映降雨条件下边坡的变形过程。 相似文献
9.
Extreme and/or prolonged rainfall events frequently cause landslides in many parts of the world. In this study, infiltration of rainfall into an unsaturated soil slope and triggering of landslides is studied through laboratory model (flume) tests, with the goal of obtaining the triggering rainfall intensity–duration (I–D) threshold. Flume tests with fine sand at two different relative densities (34 and 48%) and at slope angle of 56.5° are prepared, and rainfall (intensity in the range of 18 to 64 mm/h) is applied via a mist sprinkler system to trigger landslides. Soil water characteristic curve and hydraulic conductivity function of the fine sand are also presented. In flume tests, suction in the soil is measured with tensiometers, the progress of wetting front with time and deformations in the soil are also measured. Some of the findings of this study are: for the fine sand used in this study (a) the failure mechanism is infinite-slope type (mostly translational), and the failure surface is generally coincident with the wetting front or is in its vicinity, (b) the deformations leading to a landslide occurred abruptly, (c) both relatively high-intensity–short-duration rainfalls and relatively low-intensity–long duration rainfalls triggered landslides, (d) the shape of the I–D threshold is demonstrated to be a bilinear relation in log intensity–log duration plot, (e) below a certain rainfall intensity landslides are not triggered, (f) the effect of relative density of the soil on the I–D threshold is demonstrated by physical laboratory tests (as the relative density of the soil increases, the triggering rainfall intensity–duration threshold moves to larger rainfall events). The results of this study could be useful for accurate numerical modeling of rainfall-triggered landslides. 相似文献
10.
降雨诱发滑坡是世界上最普遍的地质灾害,而关于降雨入渗对边坡的可靠度分析,优势入渗的影响被长期忽视。使用Comsol Multiphysics对降雨条件下优势入渗做数值求解,利用无限边坡模型计算边坡安全系数;并应用改进Cholesky分解法生成空间相关随机场,使用蒙特卡洛方法分析降雨过程中边坡的可靠度。结合确定性与可靠度计算对比均质入渗与优势入渗在降雨过程中边坡安全性变化:(1)降雨强度较低时,优势入渗安全性较好,而降雨强度较高时,均质入渗更稳定;(2)均质入渗中参数空间变异性是边坡失稳破坏的关键因素,而优势入渗的边坡失稳则由湿润峰快速推进所导致;(3)针对优势入渗模型研究,发现基质域与优势域水力交换强度较大时边坡有更大概率失稳,而较小的水力交换强度可能影响边坡底部的失稳破坏。 相似文献
11.
Light rain or moderate rain is the most common meteorological event in the rainy season in the loess area of China, so the probability of landslide hazards induced by the coupling effect of earthquakes and rainfall under the condition of light rain or moderate rain is relatively higher than that under heavy rain. To study the dynamic response characteristics and instability mechanism of loess slopes by the coupling effect of earthquakes and rainfall under the conditions of moderate rain and light rain, a low-angle slope model test of a large-scale shaking table after 10 mm of rainfall was carried out. By gradually increasing the dynamic loading, the evolution of the macroscopic deformation and the instability failure mode of the slope model are observed; the temporal and spatial trends of the amplification effect, acceleration spectrum, pore pressure and soil pressure are analyzed; and the failure mechanism of the slope is determined. The results showed that the amplification effect increased along the slope surface upward, and a strong amplification effect appeared at the front of the top of the slope. Because of the stronger dynamic stress action on the upper part of the slope, the immersed soil in the upper part of the slope experienced seismic subsidence deformation, the saturation in the seismic subsidence soil increased, and the water content temporarily increased locally. With the further increase in the loading intensity, a large number of tension cracks were generated in the seismic subsidence area, and water infiltrated down along the cracks and the wetting range expanded under dynamic action. The range of seismic subsidence and cracks further extended to the deep part of the slope. Under the reciprocating action of the subsequent ground motion, the swing amplitude of the soil mass in the seismic subsidence area, which is divided by a large number of cracks in the upper part of the slope, increased further, resulting in the further reduction in the residual strength of the seismic subsidence soil mass located at the crack tip due to the pull and shear action. Finally, under the combined action of gravity and dynamic force, the upper soil mass in the seismic subsidence area dragged the lower soil mass in the seismic subsidence area downward because the sliding force is greater than the residual strength of the soil mass, which induced a seismic subsidence-type loess landslide. Under the coupling effect of earthquakes and rainfall, the instability mode and mechanism of this landslide are significantly different from those of liquefaction-type landslides.
相似文献12.
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
13.
In order to generate early warning for landslides, it is necessary to address the spatial and temporal aspects of slope failure. The present study deals with the temporal dimension of slope failures taking into account the most widespread and frequent triggering factor, i.e. rainfall, along the National Highway-58 from Rishikesh to Mana in the Garhwal Himalaya, India. Using the post-processed three-hourly rainfall intensity and duration values from the Tropical Rainfall Measuring Mission-based Multi-satellite Precipitation Analysis and the time-tagged landslide records along this route, an intensity–duration (I–D)-based threshold has been derived as I?=?58.7D ?1.12 for the rainfall-triggered landslides. The validation of the I–D threshold has shown 81.6 % accuracy for landslides which occurred in 2005 and 2006. From this result, it can be inferred that landslides in the study area can be initiated by continuous rainfall of over 12 h with about 4-mm/h intensity. Using the mean annual precipitation, a normalized intensity–duration relation of NI?=?0.0612D ?1.17 has also been derived. In order to account for the influence of the antecedent rainfall in slope failure initiation, the daily, 3-day cumulative, and 15- and 30-day antecedent rainfall values associated with landslides had been subjected to binary logistic regression using landslide as the dichotomous dependent variable. The logistic regression retained the daily, 3-day cumulative and 30-day antecedent rainfall values as significant predictors influencing slope failure. This model has been validated through receiver operating characteristic curve analysis using a set of samples which had not been used in the model building; an accuracy of 95.1 % has been obtained. Cross-validation of I–D-based thresholding and antecedent rainfall-based probability estimation with slope failure initiation shows 81.9 % conformity between the two in correctly predicting slope stability. Using the I–D-based threshold and the antecedent rainfall-based regression model, early warning can be generated for moderate to high landslide-susceptible areas (which can be delineated using spatial integration of preconditioning factors). Temporal predictions where both the methods converge indicate higher chances of slope failures for areas predisposed to instability due to unfavourable geo-environmental and topographic parameters and qualify for enhanced slope failure warning. This method can be verified for further rainfall seasons and can also be refined progressively with finer resolutions (spatial and temporal) of rainfall intensity and multiple rain gauge stations covering a larger spatial extent. 相似文献
14.
强降雨作用下基岩型层状边坡易发生失稳破坏,给人们生命财产造成重大损失。为探索基岩型层状边坡的降雨入渗过程,以Green-Ampt入渗模型为基础,考虑了边坡几何特征及饱和带渗流作用,得到了边坡不同入渗阶段入渗率和湿润峰深度的计算式,建立了适用于基岩型层状边坡的降雨入渗计算模型;在分析基岩型层状边坡稳定性时,考虑了饱和带的渗流作用,联合降雨入渗模型与极限平衡法,分析了基岩面与湿润峰面稳定性的变化规律,得到了计算基岩型层状边坡安全系数的解析表达式;结果表明,该模型的计算与试验结果具有一致性。利用该计算模型与传统计算方法对张家湾滑坡进行了强度为30 mm/h的降雨入渗与稳定性分析,得到了不同计算方法下张家湾滑坡湿润峰深度及安全系数随降雨历时增加而发生的变化规律,结果表明该计算模型在分析基岩型层状边坡稳定性时优于传统分析方法。 相似文献
15.
Rainfall patterns for shallow landsliding in perialpine Slovenia 总被引:2,自引:0,他引:2
This paper presents two types of analysis: an antecedent rainfall analysis based on daily rainfall and an intensity-duration analysis of rainfall events based on hourly data in perialpine Slovenia in the ?kofjelo?ko Cerkljansko hills. For this purpose, eight rainfall events that are known to have caused landslides in the period from 1990 to 2010 were studied. Over the observed period, approximately 400 records of landslides were collected. Rainfall data were obtained from three rain gauges. The daily rainfall from the 30 days before landslide events was investigated based on the type of landslides and their geo-environmental setting, the dates of confirmed landslide activity and different consecutive rainfall periods. The analysis revealed that the rainfall events triggering slope failure can be divided into two groups according to the different antecedent periods. The first group of landslides typically occurred after short-duration rainstorms with high intensity, when the daily rainfall exceeded the antecedent rainfall. The second group comprises the rainfall events with a longer antecedent period of at least 7 days. A comparison of the plotted peak and mean intensities indicates that the rainfall patterns that govern slope failure are similar but do not necessarily reflect the rainfall intensity at the time of shallow landslides in the Dav?a or Poljane areas, where the majority of the landslides occurred. Because of several limitations, the suggested threshold cannot be compared and evaluated with other thresholds. 相似文献
16.
Rainfall is an important factor to trigger the slope failure such as landslides and debris flows. First, the relationship between rainfall duration with the initiation of debris flow and rainfall intensity was mainly studied by the series tests in a box model. Then, the rainfall induced responses of slopes and the initiation of slope failure were simulated by using the software FLAC2D based on the soil parameters in Weijia Gully, Beichuan County, Sichuan Province. The effects of the slope angle, rainfall intensity, soil parameters on the development of the stress, and pore pressure in the soil of the slope were analyzed. It indicates that largest displacements in the slope are mainly located near the toe. With the increase of the rainfall intensity, the effective stress in the slope decreases and the displacement increases. 相似文献
17.
Cheng Qiu Tetsuro Esaki Mowen Xie Yasuhiro Mitani Chunxiang Wang 《Environmental Geology》2007,52(8):1569-1579
A shallow landslide triggered by rainfall can be forecast in real-time by modeling the relationship between rainfall infiltration
and decrease of slope stability. This paper describes a promising approach that combines an improved three-dimensional slope
stability model with an approximate method based on the Green and Ampt model, to estimate the time–space distribution of shallow
landslide hazards. Once a forecast of rainfall intensity and slope stability-related data, e.g., terrain and geology data,
are acquired, this approach is shown to have the ability to estimate the variation of slope stability of a wide natural area
during rainfall and to identify the location of potential failure surfaces. The effectiveness of the estimation procedures
described has been tested by comparison with a one-dimensional method and by application to a landslide-prone area in Japan. 相似文献
18.
降雨条件下考虑饱和渗透系数变异性的边坡可靠度分析 总被引:1,自引:0,他引:1
土体饱和渗透系数表现为天然的变异性,为此基于Green-Ampt模型建立了考虑饱和渗透系数变异性的降雨入渗物理模型,并藉此模型确定了坡体湿润锋深度和含水率分布。然后结合无限长非饱和土边坡稳定模型得到解析形式的反映边坡稳定性的极限状态函数。采用Monte Carlo法对饱和渗透系数进行随机抽样并最终建立降雨条件下考虑饱和渗透系数变异性的边坡概率分析框架。针对一假想边坡,探讨了饱和渗透系数的变异系数、降雨持时和降雨强度对边坡破坏概率以及破坏发生时间概率分布的影响,结果表明:在降雨初期,边坡的破坏概率随饱和渗透系数变异性的增强而逐渐增加,但随着降雨的持续,破坏概率开始随变异性的增强而显著降低;滑坡最可能发生时间的大小并不受饱和渗透系数变异性的影响,而是直接取决于降雨强度;滑坡最可能发生时间所对应的概率却随变异性的增强而逐渐减小。 相似文献
19.
For the assessment of shallow landslides triggered by rainfall, the physically based model coupling the infinite slope stability
analysis with the hydrological modeling in nearly saturated soil has commonly been used due to its simplicity. However, in
that model the rainfall infiltration in unsaturated soil could not be reliably simulated because a linear diffusion-type Richards’
equation rather than the complete Richards’ equation was used. In addition, the effect of matric suction on the shear strength
of soil was not actually considered. Therefore, except the shallow landslide in saturated soil due to groundwater table rise,
the shallow landslide induced by the loss in unsaturated shear strength due to the dissipation of matric suction could not
be reliably assessed. In this study, a physically based model capable of assessing shallow landslides in variably saturated
soils is developed by adopting the complete Richards’ equation with the effect of slope angle in the rainfall infiltration
modeling and using the extended Mohr–Coulomb failure criterion to describe the unsaturated shear strength in the soil failure
modeling. The influence of rainfall intensity and duration on shallow landslide is investigated using the developed model.
The result shows that the rainfall intensity and duration seem to have similar influence on shallow landslides respectively
triggered by the increase of positive pore water pressure in saturated soil and induced by the dissipation of matric suction
in unsaturated soil. The rainfall duration threshold decreases with the increase in rainfall intensity, but remains constant
for large rainfall intensity. 相似文献
20.
R. K. Dubey J. A. Dar Gyan Prakash Satyam 《Journal of the Geological Society of India》2018,91(6):704-710
Slope stability has been identified as a major obstacle to construction in the rapidly developing countries of Indonesia and Malaysia. In these countries, slope failure has been identified as one of the most commonly occurring natural disasters, leading to financial losses and deaths. Slope failure is often related to prolonged rainfall events where rainfall infiltration increases pore water pressure, reducing soil strength. This failure mechanism will accelerate with the existence of cracks, which are usually caused by differential settling, drying and shrinking of soil, and associated construction activities, among other causes. The existence of cracks on slopes usually provides an easy pathway for rainfall infiltration into soil, allowing rain to infiltrate to deeper layers than in the absence of cracks. The moisture content in deep layers is therefore higher in cracked slopes than in slopes without cracks. To address this issue, we investigated the effects of cracks on slope stability when subjected to rainfall. The influence of crack location, depth, size, and direction on pore water pressure distribution and slope stability was studied by imposing different rainfall intensities. Analysis of seepage and stability were conducted using the GEO STUDIO 2007 softwares SEEP/W and SLOPE/W. Results suggested that pore water pressure and slope stability were influenced by the existence of cracks. Analysis showed that slope factors of safety decreased sharply when cracks were located adjacent to the slope crest, as compared to when cracks were located in the middle of the slope. Furthermore, slope factors of safety decreased with increasing crack depth. Pore water pressure and slope factors of safety decreased further when slopes were subjected to small rainfall intensities for long periods, as compared to when slopes were subjected to high rainfall intensities for short periods. The present study shows that study of cracks should be an integral part of the slope stability analysis. 相似文献