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1.
The shaking table tests are conducted on small scale nailed embankment slopes to study their behavior under dynamic conditions.
Medium grained local sand with a water content of 3% is used in the study. The embankment slope is constructed using the controlled-volume
compaction method. Three slope angles, 30°, 35° and 40° with a constant slope height of 18 cm are considered for the embankment.
Each slope is reinforced with six number of hollow aluminum nails in two rows. The ratio of the length of nail to slope height
(0.82) is same for all model slopes. The nails are inserted at three different inclinations. Three strain gauges are glued
to each nail to obtain local strains during shaking. The accelerations at the base and the crest of the model slopes are monitored
to find the acceleration responses of the embankments during the input ground motions. The numerical simulation of the model
tests is performed by a commercial program called FLAC. The results of the numerical analyses are found to be reasonably close
to the corresponding experimental results. 相似文献
2.
This paper presents the laboratory test results of nailed soil slopes to study the behaviour of reinforced slopes under surcharge load. Tests were conducted on nailed soil slopes of three different slope angles (β = 30°, 45°and 60°) and nail inclinations (i = 0°, 15° and 30°). Each slope is reinforced with a number of hollow aluminium nails placed in three rows. The failure response, load-settlement, nail forces at the centre of nails and the distribution of nail forces along the length are examined during the tests. The numerical simulation of the model tests is performed by a 3-D finite element program. The numerical results are found in agreement to the corresponding experimental results. It is observed that the nails inclined at 0° to the horizontal give the maximum improvement in the load carrying capacity of the slopes followed closely by the 15° nail inclination. The maximum nail forces are observed in the topmost row of nails and decreases with the depth. The distribution of the nail forces along the nail are also found to be varying with respect to the failure surface of the slopes. 相似文献
3.
为研究坡顶加载条件下黏性土坡的承载特性和变形规律,进行了素土坡和土钉加固土坡的加载离心模型试验。测量了土坡的承载和变形过程。通过对比两种土坡的承载特性和变性规律,土钉的加固作用体现在:限制了土坡向坡面方向的位移,使土坡的承载能力得到了明显提高;在加固土坡内形成的土钉影响区域改善了加载底板边缘处的薄弱程度;增大了土坡中上部土体的竖向压缩变形,减小了剪切变形,增强了土坡的稳定性。土坡上部土钉的加固效果随着坡顶荷载的增大而越明显;土坡中下部土与土钉的相互作用越靠近坡面越强 相似文献
4.
Pressure-grouted soil nails have been increasingly used for stabilizing slopes. The pullout resistance of a soil nail is the main factor for reinforcing the slope stability. In this study, a two-dimensional axisymmetric finite element model is developed to simulate the pullout behavior of a pressure-grouted soil nail. This model is verified with field pullout tests result of a pressure-grouted soil nails by comparing with gravity-grouted soil nails. Based on the analysis, a three-dimensional finite element model is proposed for stability analysis of a slope reinforced with pressure-grouted soil nails using the shear strength reduction method. A series of numerical slope stability analyses for a slope composed of weathered soil are performed to investigate the effects of grouting pressure on the slope stability and the behavior of the soil nails. Special attention is given to the installation effect of a pressure-grouted soil nails. It is found from the result of this study that the pressure-grouted soil nails increase the safety factor by fifty percent in a slope by increasing the stiffness of the nailed slope system. Numerical analysis results confirm the fact that the pullout resistance of a soil nail is the main factor for stabilizing slopes rather than the shear resistance of the soil nail. 相似文献
5.
堆积体边坡动力响应特性复杂,影响因素众多。已有的大型动三轴试验结果表明,含水状态对堆积体的动剪切模量比与阻尼比有重要影响。针对含水状态这一因素,开展了2组不同含水率的1:12比尺的大型振动台堆积体边坡模型试验,对比分析了其在连续地震荷载序列作用下的加速度响应特性与坡顶位移发展趋势。试验结果表明:2组边坡模型均表现出第一阶自振频率随着加载序列递减、阻尼比随着加载序列增大的现象,但含水率为6.6%时,边坡第1阶自振频率与阻尼比均大于含水率为0.7%的堆积体边坡。堆积体边坡含水率为6.6%时的输入地震动峰值加速度(PGA)放大系数大于堆积体边坡含水率为0.7%时的工况。2组模型坡顶水平响应加速度的傅里叶频谱特征相似,均表现出输入地震波的特征频率越接近模型第1阶自振频率,坡顶水平加速度放大效应越明显,而且从低频侧接近第1阶自振频率的响应比从高频侧接近的要显著。含水率为6.6%的堆积体边坡在多级地震荷载作用下的坡顶永久位移均大于含水率为0.7%的边坡,堆积体边坡含水率为6.6%,坡顶永久位移对输入地震波的频谱特性更敏感。研究结论有助于增强不同含水状态对堆积体边坡动力响应规律影响的认识。 相似文献
6.
研究地震作用下黄土-泥岩边坡动力响应特征,对边坡的稳定性评价和抗震设计具有重要指导意义。基于边坡的离心机振动台试验和数值模拟分析,研究地震波振幅对边坡地震动响应的影响规律,结果表明:由坡体深部至浅表层,黄土-泥岩边坡的水平向和垂向加速度放大效应呈非线性增加,且水平向大于垂直向,在坡体顶部到达最大,表现为趋表效应和高程效应;在边坡内部岩性接触部位,黄土层内动力响应较大,泥岩中动力响应较小,表现为岩性效应;随着输入地震波振幅的增加,坡体动力响应表现为先增大后减小的趋势,当输入振幅达0.3g时,坡体动力响应最大。黄土-泥岩边坡的变形破坏过程为:随输入地震波振幅增加,坡顶逐渐形成拉张裂缝,不断扩展,坡体中上部溜土,产生向临空面方向的位移,坡体中部发生鼓胀隆起,局部坡体振动松散,岩土体滑落至坡脚堆积。 相似文献
7.
水位下降是导致滑坡的重要原因之一,而土钉是加固土坡的有效手段。进行离心模型试验,再现了水位下降时土钉加固土坡的变形和破坏过程,测量了土坡的位移变化。试验结果表明,水位下降条件下土钉加固土坡的破坏模式以绕钉破坏为主,滑裂面从坡顶逐渐向下发展至坡面;土钉加固土坡的破坏过程与变形局部化过程表现出显著的耦合变化;土钉加固机制主要表现为通过土钉与坡体的相互作用,减小土坡的变形和变形局部化程度,从而提高土坡的稳定性。增加土钉长度使得滑裂面向坡内部移动,显著减小土坡的变形及变形局部化程度,从而提高了土坡安全性。 相似文献
8.
地震作用下高陡岩质斜坡动力响应规律研究 总被引:2,自引:2,他引:0
在西南山区高陡单面斜坡研究基础上运用FLAC3D有限差分法对双面斜坡的动力响应规律进行分析,研究了斜坡坡高、坡角及顶宽变化对响应规律的影响,结果发现:对斜坡输入不同中心频率Ricker子波时,坡体卓越频率整体处于1~4 Hz之间,且斜坡不同部位卓越频率不尽相同。从规律上看,坡高决定了斜坡动力响应的表现形式,体现在坡高较低时加速度放大系数等值线平行于坡底而增大后变为平行于坡面展布的闭合区域,反映在放大效果上即为加速度随坡高线性增加(坡高较低时),而后呈现增减反复出现的情况(坡高较高时);另外,坡角增大未影响斜坡动力响应的表现形式,仅改变了斜坡内部放大系数等值线的走向,使得陡倾斜坡加速度水平及竖向放大效果均大于缓倾斜坡。双面斜坡随坡形变化的动力响应规律与单面坡近乎相同,但由坡形改变所致地震波反射与折射现象使得双面坡对地震波的放大效果更加明显,表现为放大系数等值线密集程度增大,加速度较相同单面斜坡成倍增加。 相似文献
9.
A plane–strain numerical model has been developed to mimic a nailed loose fill slope under surcharge loading. The model has been used to back-analyse a field test that was conducted to examine the behaviour of soil nails in loose fill slopes under surcharge loading. Incremental elasto-plastic analyses coupled with pore water diffusion have been performed to study the internal deformation, water content redistribution in the soil, and the performance of the soil nails during and after the application of surcharge loading. The model parameters describing the mechanical and hydraulic properties of the nailed slope were obtained from field or laboratory tests. Different modelling techniques and boundary conditions for mimicking soil–nail interaction in loose fill material have been examined. Comparisons between numerical predictions and field measurements demonstrate that a new interfacial model, denoted as the embedded bond–slip interface model, is more suitable for mimicking the interfacial behaviour. Despite the simplicity of the numerical model, the predicted responses are in close agreement with the field test results, in particular the mobilisation and distribution of nail forces in response to surcharge loading. Both the numerical and the field test results suggest that soil nails are capable of increasing the overall stability of a loose fill slope for the loading conditions considered in this study. The increase in confining stress along the soil nails near the surcharge area is central to the overall stabilising mechanism. On the contrary, the nail forces mobilised near the nail heads are much smaller, indicating that the beneficial effect of having a structural grillage system at the slope face is limited for the range of surcharge pressures considered in this study. 相似文献
10.
Analysis on mechanism of landslides under ground shaking: a typical landslide in the Wenchuan earthquake 总被引:1,自引:1,他引:0
Yang Changwei Liu Xinmin Zhang Jianjing Chen Zhiwei Shi Cong Gao Hongbo 《Environmental Earth Sciences》2014,72(9):3457-3466
A high steep rock hill with two-side slopes near National Road 213 is used as a prototype in this paper. The full process from initial deformation to sliding of the slope during ground shaking is simulated by a new discrete element method—continuum-based discrete element method. Then, the seismic responses of a high steep rock hill with two-side slopes are researched from the base of time, frequency and joint time–frequency domain using Hilbert–Huang transform and Fourier Transform. The findings are: first, the stress concentration phenomenon occurs at the top of the sliding mass, and then some tension and shear failure points appear, which expand from the top toward the toe of the sliding mass along the structural plane. At the same time, the number of tension failure points gradually increases. Then the toe of the sliding mass fails, and shears out from its toe which results in the landslide. If the material parameters are under the same conditions, the landslide in the middle of the slope occurs before that at the foot of slope, and the starting time of landslide and the arrival time of the peak ground acceleration are synchronous or the former slightly lags behind the latter. The difference of distribution and dissipation of earthquake energy in the sliding body and sliding bed is the major influence factor to induce the landslide. When the accelerations are small, the instantaneous frequency of accelerations between sliding bed and sliding body is generally consistent, the energy transmittance coefficients of the sliding structural plane and the controlled frequency band of the energy all range in a limitation; with the increase of the seismic intensity, the instantaneous frequency and the energy transmittance coefficients gradually decrease, and then they are steady within the lower limitation. At the same time, the controlled frequency band also shifts gradually from high frequency band to the lower one. Based on the input seismic wave, the peak acceleration amplifies as the increase of elevation, regardless of the monitoring points on the steep slope, gentle slope side or inside of the slope. Generally speaking, amplification of the vertical peak acceleration is stronger than that of the horizontal peak acceleration, and amplification of the peak acceleration on a steep slope is stronger than that on a gentle slope, and that of inside of the slope is the weakest amplification. 相似文献
11.
黄土边坡开挖与支护效应的离心模拟试验研究 总被引:2,自引:0,他引:2
黄土边坡在开挖卸载过程中的稳定性分析及其防护在边坡工程中占有重要地位。采用西南交通大学土工离心机进行了1组非支护边坡和2组土钉支护边坡的离心模型试验,研究了开挖卸载过程中黄土边坡的变形特性、稳定性变化规律及土钉的加固效应。离心模型试验研究表明,土钉能够显著提高黄土边坡的稳定性。土钉支护的边坡土体,因土钉的锚固效应,边坡的变形范围更大,但变形量较小,最大变形量并不在坡面,而是发生在坡面下的锚固区域内,非支护黄土边坡的潜在滑移面产生于距坡顶约40 cm处,土钉支护后,黄土边坡基本不会发生破坏。对于抵抗边坡发生变形而言,不等长土钉支护的效果要优于等长土钉支护,研究成果为黄土边坡的开挖与防护提供了参考。 相似文献
12.
岩性及岩体结构对斜坡地震加速度响应的影响 总被引:1,自引:0,他引:1
斜坡岩体的岩性及岩体结构是斜坡在地震作用下产生变形破坏的主要控制因素。基于振动台模型试验,对4个斜坡模型探讨了这2个因素对斜坡地震动力响应的影响。岩性包括强度相对较高的硬岩和强度相对较低的软岩,对这两种岩性的斜坡又分别考虑了不含结构面的均质斜坡和含水平层状结构面的斜坡。基于传感器采集到的大量数据,以主频相近的天然地震波和10 Hz正弦波加载为分析工况,获得了以下几点认识:(1)4个模型斜坡坡面和坡内的水平向加速度均具有高程放大效应,尤其是软岩斜坡坡顶放大效应最显著;(2)软岩斜坡对水平向加速度的高程放大效应强于硬岩斜坡,尤其是在均质斜坡中表现最显著,均质软岩斜坡的高程放大效应呈现出明显的非线性特征;(3)当加载方向与水平层面平行时,含水平层状结构面的斜坡比均质斜坡产生了更强的高程放大效应,且在软岩斜坡中体现最显著;(4)岩性差异对斜坡水平向加速度高程效应的影响比结构差异的影响更为显著。研究结果为岩质斜坡的抗震设计提供了一定参考。 相似文献
13.
面板对路堤式加筋土挡墙力学特性的影响 总被引:1,自引:0,他引:1
加筋土挡墙作为一种新型的轻型支挡结构,广泛应用于公路、铁路、港口等工程中。随着加筋土挡墙技术的发展,面板的类型也越来越丰富。利用Plaxis有限元软件,对路堤式加筋土挡墙进行了二维有限元计算分析。针对墙背水平土压力、垂直土压力、挡墙侧向位移、筋材应变和挡墙稳定系数等计算结果的分析,探讨了3种类型面板(返包式面板、整体式面板和拼装式面板)对路堤式加筋土挡墙力学性能的影响。研究结果表明,垂直和水平土压力的数值计算结果均小于理论值;相比较与其他两种面板的加筋土挡墙,返包式面板加筋土挡墙筋材的应变最大;面板类型对于加筋土挡墙的整体稳定性几乎没有影响。研究成果为实际工程的应用提供了理论指导。 相似文献
14.
M. El Sawwaf 《Geotechnical and Geological Engineering》2010,28(4):311-323
The paper presents the results of laboratory model tests and theoretical analysis on the behavior of a strip footing supported
on sheet pile wall-stabilized sandy slope and loaded vertically to failure. The parameters varied in the study include the
height, stiffness and location of the sheet pile wall, the location of the footing relative to the slope crest and the relative
density of sand. Two-dimensional plane strain finite element analyses was used to analyze a prototype strip footing on sandy
slope with same conditions. The results indicate that the inclusion of sheet pile wall has significant effect in improving
the response of the strip footing and the slope itself. The theoretical results confirm the experimental results of the model
footing tests and show reasonable agreement. Based on the numerical and experimental results, critical values of the sheet
pile wall parameters for maximum stabilizing effect are established. 相似文献
15.
比较了不同行业抗震设计规范中边坡地震影响系数和动态放大系数的取值方法,综述国内核电厂高边坡案例的研究进展。以某工程核安全级反倾层状软岩高陡边坡为例,探讨应用多种方法综合分析其在不同地震作用下的动态放大效应、支挡结构抗震性能和加固效果的分析思路。首先,基于典型二维计算剖面,采用拟静力法进行边坡的初步加固设计;然后,基于大型振动台试验和数值计算,研究了不同地震作用下软岩高边坡加速度动力放大效应、支挡结构的抗震性能;最后,通过现场工程监测评价边坡的加固效果。研究结果表明,在强震作用下,核安全边坡按其他行业规范中的抗震参数取值方法进行设计是可行的,通过振动台和数值分析验证边坡整体是稳定的,支挡结构抗震性能良好,该研究思路和方法是合理可行的,并能节约大量工程投资。研究成果可丰富核安全级软岩高陡边坡研究理论与方法,并为核安全级软岩高陡边坡抗震安全评价和工程设计提供技术支持。 相似文献
17.
地震作用下土石坝液化易导致坝坡失稳滑移等严重后果,加密法是常用的抗液化手段之一。针对坝趾压重与坝壳翻压两种坝身加密加固方法,开展了离心机振动台试验,分析了不同加密型抗液化处理的小型土石坝坝坡地震响应规律。试验结果表明,由于高水头作用下坝坡底部土体软化,未处理坝坡加速度放大系数沿高程先减小后增大,而加密坝坡加速度放大系数沿高程逐渐增大,且坝坡表面处加速度存在表面放大现象。坝趾压重和坝壳翻压提高了坝身有效应力,降低地震产生的超静孔压比,有效防止土体液化。未处理坝坡在峰值加速度为0.24g地震作用下即发生坝趾液化现象,而加密坝坡在峰值加速度为0.24g和0.45g下均未发生液化。未处理坝坡整体侧向位移大,加密处理后,在峰值加速度为0.24g下坝坡整体表现为竖向位移。坝趾压重区坝趾水平位移明显减小,坝壳翻压区坡顶沉降减小了50%。试验结果验证了坝趾压重和坝壳翻压的抗液化效果,为小型土石坝抗震加固设计提供了参考。 相似文献
18.
土钉-预加固桩复合支护技术已在基坑及边坡工程中取得了大量应用,但在黄土高边坡开挖中的应用相对较少。基于详细的现场监测数据并辅以有限元数值计算,分析了边坡开挖过程中支护体系受力及变形随时间和空间的变化规律。结果表明:预加固桩的水平位移随着时间的推移与开挖深度的增加呈增大趋势,并最终趋于稳定,同时,桩身剪力及弯矩亦随开挖的进行而不断增大;剪力最大值的位置不断下移,说明边坡的潜在滑动面有不断向下扩展的趋势。与深基坑支护桩的土压力分布相比,土钉-预加固桩复合支护体系中桩后土压力随开挖呈不断减小的趋势,但桩前土压力随着开挖深度的增加,有增有减。随着施工开挖深度的增加,土钉所测得的应力有着明显的增大,说明土钉对抑制坡体变形起到了一定作用。在预加固桩的影响下,桩上方坡体的最危险破裂面为圆弧状,其剪出口位于预加固桩桩顶处。开挖深度较浅时,土钉对整体稳定性的贡献较大,而随着开挖深度的变大,预加固桩的加固效果开始占主导地位。 相似文献
19.
Large-scale shaking table model tests were carried out to study the dynamic behaviors of slopes and failure mechanism of landslide in permafrost regions. The model slope was constituted of silty clay layer stacked on an ice layer with 8° surface slope. Acceleration, displacement, and pore pressure were measured subjected to vertical and horizontal seismic loadings. The horizontal wave has a stronger influence on the failure of the model than the vertical wave motion, and the natural frequency of vibration in the horizontal direction decreased obviously at the failure state. The model slope has three components of different nonlinear mechanical properties, which are the soil layer, soil-ice interface, and ice layer. The amplification factor of peak ground acceleration is obviously smaller at the soil-ice interface than that at the soil and ice layer. The acceleration responses are nonlinear because of the nonlinear soil properties and degradation of modulus with increasing horizontal acceleration. Especially, excess pore pressure generation was observed near the soil-ice interface of the slope subjected to higher input acceleration, which resulted in the decrease of the effective stress. Failure surface appeared to be the soil-ice interface, which was consistent with the field observations of landslides in permafrost regions. Slope failure could be defined based on the massive movement of the slope, characterized by integral sliding pattern along the soil-ice interface without the distinct deformation inside the sliding body. The results show that the sliding of the slope with soil layer at gentle gradient is mainly triggered by the combined action of horizontal seismic wave, existence of soil-ice interface, and pore pressure generation in permafrost regions. 相似文献
20.
The role of infiltration processes in steep slope stability of pyroclastic granular soils: laboratory and numerical investigation 总被引:1,自引:0,他引:1
Rainfall-induced landslides on steep slopes are a common feature in much of Italy’s mountain areas covered by shallow-pyroclastic
deposits. Generally, these deposits are unsaturated and have a slope angle higher than 40°–50°; hence their stability is due
to the positive effect of matric suction on soil shear strength. During rainfall, rainwater infiltration causes a decrease
in suction, which in turn causes changes in soil mechanical and hydraulic properties, leading towards an instability process.
However, the response of pyroclastic soil slopes to rainwater infiltration is not fully understood. The aim of this study
is to link slope instability to the infiltration process on the basis of advanced geotechnical characterization, in situ monitoring
and numerical analysis calibrated through a back-analysis of well-instrumented flume tests. 相似文献