共查询到19条相似文献,搜索用时 515 毫秒
1.
《地震工程与工程振动》2016,(4)
依据量纲分析法和相似定律,制作了顺层和反倾向岩质隧道边坡的物理模型,采用单向振动试验台施加动力荷载,利用摄像机记录模型边坡的变形破坏过程、加速度传感器采集边坡各部位加速度分布情况。试验结果表明:层状岩质边坡的变形破坏是受到结构面控制的,顺层边坡的破坏以剪切滑动破坏为主,而反倾向边坡的破坏以松散体塌落为主;另外,隧道洞口的破坏情况与洞口所处的高程有关,高坡位的隧道洞口在振动力作用下的破坏较为严重,而低坡位隧道洞口则容易被滑塌体堵塞洞口;模型边坡存在明显的"高程效应"和"趋表效应",不同结构面组合形式的边坡其加速度放大效应具有相似规律。 相似文献
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设计并完成一个1∶30的大比例尺高陡反倾层状岩质边坡的振动台模型试验,坡体内部有6个软弱泥化夹层,研究在组合支护体系作用下EL Centro地震波和汶川-清屏地震波激振下泥化夹层含水量发生变化时边坡的加速度动力响应规律。试验结果表明:(1)坡面X、Z向加速度放大系数均具有非线性高程放大效应,但前者大于后者;(2)泥化夹层含水量的变化对坡面加速度放大效应影响显著,注水后X向减小而Z向增大;(3)支护体系作用下边坡临空面放大效应的现象受限制,预应力锚索抗滑桩以下边坡基本不存在加速度放大效应;边坡分级支护可有效降低X向加速度放大系数的高程增大效应,但对Z向会产生不利作用;(4)边坡的破坏模式为上部受软弱夹层滑动牵引而发生倾倒-拉裂变形,导致顶部框架梁有可能最先发生破坏,且破坏类型可能以绕坡顶为支点向坡体内侧转动,引起上部的锚索产生拔出破坏。 相似文献
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设计并完成了1∶10大比例尺的边坡大型振动台模型试验,试验模型尺寸为4.4m×4.4m×1.8m(长×宽×高),斜坡模型表面包含30°、45°、50°、60°四个不同坡度的坡面,模拟岩体材料采用重晶石粉、河砂、石膏、黏土和水按比例配制而成。通过输入不同类型、幅值、频率的地震波来研究模型边坡的动力响应规律,在试验数据分析中采用三维局部坐标系。试验结果表明:边坡临空面方向和竖直方向的加速度高程放大效应随坡面角度的增大而增强,在坡面角度由45°→50°变化时增长趋势呈明显"台阶状"形式,而边坡走向方向的峰值加速度高程放大效应基本不随坡面角度变化;边坡各向的峰值加速度的高程放大效应随着输入地震波幅值的增大而减小,表现出"量级饱和"特性;加速度傅里叶谱的频谱成分随着高程的增大,边坡岩体对于试验模型自振频率f周围的频率成分具有显著的放大作用,而对于其他频率成分则具有滤波作用;加速度反应谱沿高程的形状基本一致,并且卓越周期对应的反应谱幅值沿高程具有一定的放大作用,而在其他周期T处,尤其是长周期部分(低频部分)则存在一定的减小作用,对于临空面方向来讲,具有明显的波峰现象。试验结果有助于揭示边坡在地震作用下的失稳机制,为边坡工程的抗震设计提供有益的参考。 相似文献
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设计并完成比例尺1∶100的边坡振动台模型试验,讨论模型的相似关系、传感器的布置及模型的建造,并编制相应的动荷载加载方案。通过输入不同类型、不同幅值、频率的动荷载,分析模型边坡在地震作用下的动力响应规律以及地震动参数对边坡动力特性和动力响应的影响。试验结果表明,在坡体的表面和坡内的竖直方向上,加速度放大系数均随着高程增加而明显增大。当输入不同压缩比的地震波时,压缩比越大坡体的动力响应越明显,即随着输入动荷载的频率增加,越接近土体的自振频率加速度放大效应越明显;在坡体的同一高程处,坡面的加速度放大系数略大于坡体内的加速度放大系数,表现出一定的趋表效应,同时随着输入地震波振幅的增加,加速度放大系数整体出现递减的趋势。实验结果分析有助于揭示土质边坡在地震作用下的失稳破坏机制,为今后边坡工程的抗震设计提供积极的参考。 相似文献
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设计并完成1∶10的孤立山体大型振动台模型试验。试验模型尺寸为4.4m×4.4m×1.8m(长×宽×高),该模型表面共包含30°、45°、50°及60°四个不同坡度的坡面。通过输入不同类型、幅值、频率的地震波,探讨地震作用下孤立山体模型的地震动力响应规律以及地震动参数对其的影响。采用三维局部坐标系,即山体的临空面方向L、坡面走向方向M及竖直方向N来对试验结果进行分析。试验结果表明:随着坡面角度的增大,临空面方向、竖直方向峰值加速度的高程放大效应逐渐增强,当坡面角度为45°,加速度放大效应突然增大,当坡面角度为50°,加速度放大效应渐趋平缓,而边坡走向方向的峰值加速度高程放大效应基本上不随坡面角度的增大而变化,其台阶也相对较为平缓;随着输入PGA的增大,临空面方向、坡面走向方向及竖直方向峰值加速度的高程放大效应逐渐减小,表现出"量级饱和"特性。试验结果有助于揭示边坡在地震作用下的失稳机制,为边坡工程的抗震设计提供有益的参考。 相似文献
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针对黄土地区山岭隧道面临的强震灾害现实特点,以强震作用下洞口周边土体与隧道结构的地震动放大效应为主要研究目标,通过建立三维数值模型,重点研究不同坡度、坡高与入洞高程模型的坡面高程方向、水平方向以及衬砌结构的加速度与位移响应规律,提出坡面加固区范围和隧道抗震设防长度建议值。研究结果表明:仰坡高度、坡角及进洞高程的变化,均会对隧道洞口段地震响应规律和破坏模式产生重要影响,缓坡易发生坡底处的剪切破坏,而陡坡易发生坡顶的拉裂破坏;随着边坡高度的增大,边坡的滑动破坏范围逐渐增大;隧道的存在对坡面地震动高程放大效应有明显"抑制"作用,在洞口水平向存在动力响应放大区,范围为2.1~2.8倍洞径;通过分析隧道衬砌沿进深方向的动力响应规律,建议黄土隧道洞口段抗震设防长度最小值为3倍洞径。 相似文献
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近断层地震动作用下土质边坡动力响应研究 总被引:1,自引:0,他引:1
根据汶川地震中滑坡多沿断层分布的特点,利用FLAC有限差分软件建立了一个土质边坡动力数值分析模型,分别研究了具有向前方向性效应、滑冲效应和无速度脉冲的近断层地震动作用下边坡的动力响应.结果表明:含速度脉冲地震动对边坡的破坏作用远强于无速度脉冲地震动,且具有滑冲效应的地震动引起的边坡动力响应稍大于向前方向性效应地震动.近断层地震作用下,边坡水平方向绝对峰值加速度分布存在沿高程放大效应.具有向前方向性效应的地震动会增强边坡加速度的高程放大效应而具有滑冲效应的地震动则在一定程度上削弱了这种放大效应,且边坡中下部绝对峰值加速度值相对于向前方向性效应地震动和无速度脉冲地震动引起的绝对峰值加速度值较大. 相似文献
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《世界地震工程》2015,(1)
斜坡的坡体结构是控制斜坡变形破坏模式、影响斜坡动力特性的重要因素。为了进一步了解"坡体结构面如何影响边坡地震动力响应规律"这一问题,对均质斜坡(无结构面)和水平层状岩质斜坡(含水平结构面)两种类型的岩质斜坡进行了大型振动台试验研究,并着重对比分析了有无结构面对岩质斜坡峰值加速度动力响应规律的影响。研究结果表明:水平层状斜坡坡表和坡内加速度动力响应基本上都大于均质斜坡,即水平层状岩质斜坡存在层面放大作用,但水平结构面对斜坡加速度动力响应放大作用的程度与地震波类型、频率、振动强度和激振方向有关,总的来说,水平层面对Z向地震波的放大作用大于对X向地震波;在本试验研究中,频率仅影响层面放大系数量值的变化,而地震波类型及其振动强度和激振方向则对其分布形式和量值均有显著影响。 相似文献
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为了更科学地评价地震荷载作用下土钉支护季节冻土边坡的抗震性能,基于热-动力理论控制方程,应用大型非线性有限元软件ABAQUS,建立带有黏弹性人工边界的地震荷载作用下土钉支护季节冻土边坡的数值模型,对比分析夏季和冬季这两个典型季节时的加速度响应、位移响应以及土钉轴力响应。结果表明:无论是夏季还是冬季,加速度峰值随着季节冻土边坡高程以及激振加速度峰值增加而增加,在夏季时刻的季节冻土边坡坡顶位置处达到最大。此外,在不同地震波峰值加速度作用下,相同位置处的位移响应峰值却有明显的不同,同一地震烈度地震波激震时,夏季的季节冻土边坡坡顶位移最大,表明地震荷载对夏季的季节冻土边坡坡顶破坏效应最为明显,土钉轴力具有高程放大效应和坡面放大效应,季节冻土边坡坡底至坡顶的土钉端部轴力峰值逐渐增大。文中数值模拟模型及结论可为制定地震荷载作用下土钉支护季节冻土边坡抗震设计提供一定的参考。 相似文献
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Considering the existence of numerous shallow-buried tunnels traversing high slopes in the loess area in western China and the fact of high seismic intensity there, we investigate the dynamic response rules of a shallow-buried loess tunnel and its slope under the action of seismic waves with different intensities. Through large-scale shaking table model tests,we successfully analyze the characteristics and process of the destabilization of tunnels and slopes, and propose valuable suggestions regarding the reinforcement parts of a tunnel for reducing seismic damage. The results show that the main seismic damage on a slope include the failure of the sliding surface between the top and foot and the stripping of the soil around the tunnel entrance, while the damage on a tunnel is mainly manifested as the seismic-induced subsidence at the portal section and the cracking deformation at the joint areas. Finally,we propose that the "staggered peak distribution" phenomenon of the maximum acceleration values at the vault and inverted arch area can be considered as a criterion indicating that the tunnel enters into the threshold of dynamic failure. 相似文献
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地震引起的滑坡对生命、环境和经济造成了巨大的威胁。目前,对于地震作用下边坡稳定性的研究主要集中在单一滑动面破坏模式,对于具有多个潜在滑动面边坡的地震稳定性研究比较欠缺。基于此,利用有限差分软件FLAC对不同边坡进行地震稳定性数值模拟,对比分析不同强度地震动作用下均质土体、分层土体和含软弱夹层土体边坡的滑动面演化过程和永久变形分布特征。结果表明:对于均质边坡,地震引起的滑动面为单一的整体滑动面,地震动强度的增加仅导致沿滑动面的永久变形量增大;对于非均质边坡,在地震作用下还可能形成通过土层交界面的局部滑动变形,且地震作用下最先形成和发生变形的滑动面与静力条件下得到的最小安全系数对应的最危险滑动面一致;同时,地震引起的边坡浅层和深层变形破坏存在复杂的相互影响,当局部浅层滑动先发生时,地震动的进一步增大很容易诱发更深层的坡体滑动,而当深层滑动先发生时,由于塑性变形影响地震惯性力向上部坡体的传播,浅层坡体的进一步滑动变形相对较难被触发。 相似文献
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To clarify the changes in slope stability of loess slopes under the coupling action of rainfall and vehicle loads. Experiments with different water contents under different environmental conditions were carried out indoors, and the relationship function between water content and shear strength parameters was obtained; Secondly, based on Geostudio, an equivalent layered calculation model of water content-strength parameters of loess slope was established, the variation law of soil sample matrix suction with volumetric water content was measured by volumetric pressure plate tester. Finally, by using a combination of finite element analysis of saturated/unsaturated seepage and limit equilibrium analysis of slope stability, the SLOPE/W module in the modeling software GeoStudio is used to calculate and analyze the effects of vehicle loads, rainfall intensity, rainfall duration, and other working conditions on the stability of loess slopes, respectively. The results show that when the lane is in the middle of the slope, the vehicle load parameters have little effect on the uphill stability, but have a greater impact on the downhill; With the increase in rainfall, the change curves of the slope safety coefficient gradually overlap when the vehicle loads are four-axis,five-axis, and six-axis. This shows that when studying the change of slope safety factor under the dual influence of vehicle loads and rainfall, rainfall is the main cause of slope stability; The change rate of slope safety factor increases gradually with the increase of rainfall, and the change trends of the upper, lower and overall parts of the slope are similar. 相似文献
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The aim of this study was to investigate how the spatial distribution of grass influenced run-off and erosion from a hillslope with loess and cinnamon soils in the rocky area of Northern China. We set up a trial to test the two soils with different treatments, including bare soil (BS), grass strips on the upper (UGS) and lower (DGS) parts of the slope, grass cover over the entire slope (GS), and a grass carpet on the lower part of the slope (GC), under simulated rainfall conditions. The results showed that the run-off coefficients for the loess and cinnamon soils decreased by between 4% and 20% and by between 2% and 37%, respectively, when covered with grass. Grass spatial distribution had little effect on the run-off, but more effect on erosion than vegetation coverage degree. The most effective location of grass cover for decreasing hillslope erosion was at the foot, and the high efficiency was mainly due to controlling of rill formation and sediment deposition. The soil loss from GS, DGS, and GC on the loess and cinnamon soils was between 77% and 93% less and 55% and 80% less, respectively, compared with the loss from BS. However, the soil characteristics had little effect on soil erosion for well-vegetated slopes. The results highlight the importance of vegetation re-establishment at the foot of hillslope in controlling soil erosion. 相似文献
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Seepage erosion in layered stream bank material 总被引:1,自引:0,他引:1
Current stream restoration practices often require anthropogenic manipulation of natural field soils to reconstruct stream banks in the absence of stabilizing vegetation. For this study, researchers conducted laboratory experiments on reconstructed, non‐vegetated stream banks with layered soils experiencing seepage. The objective of the study was to determine the effect of seepage, pore water pressure, and bank geometry on erosion and bank stability of layered streambanks. The experimental design consisted of an intermediate‐size soil lysimeter packed with a sandy clay loam top soil and an underlying fine sand layer at three bank slopes (90°, 45° and 26°). Shallow groundwater flow and seepage resulted in bank failure of geometrically stable banks. Pop out failures, liquid deformation, and piping were all observed failure mechanisms in the underlying sand material, dependent on the bank angle. Groundwater seepage processes created small‐scale failures of the underlying sand leading to larger‐scale failures of the overlying sandy clay loam. The underlying sand layer eroded according to the initial bank angle and change in overburden loading. The overlying loam layer failed along linear failure planes. The gradually sloped bank (i.e. 26° slope) failed faster, hypothesized to be due to less confining pressure and greater vertical seepage forces. Researchers analyzed the laboratory experiments using the Bank Stability and Toe Erosion Model, version 4·1. The model calculated an accurate shear surface angle similar to the failure angle observed in the lysimeter tests. The model predicted failure only for the undercut 90° bank slope, and indicated stable conditions for the other geometries. Steeper initial bank slopes and undercut banks decreased the bank factor of safety. The observed failure mechanisms and measured saturation data indicated an interaction between overburden pressure, seepage forces, and bank slope on bank stability. Future bank stability modeling would benefit by incorporating lateral seepage erosion and soil liquefaction prediction calculations. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
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Effects of vertical seismic acceleration on 3D slope stability 总被引:1,自引:1,他引:0
The conventional pseudo-static approach often neglects the effect of the vertical seismic acceleration on the stability of a slope, but some analyses under plane-strain (2D) conditions show a significant effect on the slope stability. The purpose of this study is to investigate the effect of the vertical acceleration on the safety of three-dimensional (3D) slopes. In the strict framework of limit analysis, a 3D kinematically admissible rotational failure mechanism is adopted here for 3D homogeneous slopes in frictional/cohesive soils. A set of stability charts is presented in a wide range of parameters for 3D slopes under combined horizontal and vertical seismic loading conditions. Accounting for the effects of the vertical seismic acceleration, the difference in safety factors for 3D slopes can exceed 10%, which will significantly overestimate the safety of the 3D slopes. 相似文献
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Lawrence W. Martz 《地球表面变化过程与地形》1992,17(6):543-556
This study examined the variation in soil erodibility along hillslopes in a Prairie landscape. The soil loss produced by simulated rainfall on undisturbed soils was used as an index of relative soil erodibility. Relative erodibility, and several soil properties, were measured at the summit, shoulder, midslope footslope and toeslope of 11 slope transects in an area of cultivated grassland soils on hummocky glacial till. The variation of erodibility with slope position was statistically significant, and slope position explained about 40 per cent of the variation in the erodibility measurements. Erodibility was 14 per cent higher on the shoulder and midslope, and 21 per cent lower on the toeslope, than on the summit and footslope. Local variation in erodibility along slopes was considered to be an important control on patterns of soil erosion in the landscape. The variation of erodibility along the slopes reflected soil property trends. The greatest erodibility was associated with upper slope positions where soils tended to be shallow, coarse, poorly leached and low in organic matter, while lower erodibility was found at lower slope positions with deep, organic-rich and leached soils. Of the individual soil properties considered, silt and sand content were the most highly correlated with erodibility. The results, together with results from other studies, also suggest that net erosion and erodibility are positively related. 相似文献
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Hongwu Zhang Guangquan Liu Chensu Zhao Luohao Zhang Qiang Zhang Heng Fu Shuai Cao 《国际泥沙研究》2023,38(1):24-32
A typical gully sub-basin with a complex geomorphological form is used to do a model test of gravity erosion of loess by considering the sequence of slopes in a prototype gully creating a sequence of underlying surface forms in the upper reaches. The results show that the runoff from heavy rainfall is the main external force for the erosion of loess, and also is an important influencing factor to stimulate and intensify the development of gravity erosion. The soil structure and the height of the... 相似文献