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汶川地震后,我国对设计高土石坝提出了分析评价其极限抗震能力的要求。目前全面深入的评价方法,是从坝坡稳定、地震残余变形、液化安全性和防渗混凝土结构应力状态等方面,运用数值分析和动力离心模型试验的方法,综合判定高土石坝的极限抗震能力,长河坝心墙堆石坝工程首次采用了此综合评价方法。然而此类评判目前没有统一的判定标准,探求其原因,认为是数值或物理模拟方法不能十分真实地模拟实际情况、分析方法细节和验证实例资料的局限性、研究者的经验认识不同等。从这些原因的位置探求一些减少标准差异的评价方法,如边坡稳定分析时,取滑块的最大厚度不小于5m;混凝土防渗墙的应力评判应细化到抗压强度和抗拉强度,并研究提出相应评判标准,依据新的评价方法建议了评价标准。 相似文献
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四川芦山7.0级强烈地震影响区域内有大量的砌体结构房屋,既有未采取任何抗震构造措施的非约束砌体结构,也有设置了圈梁和构造柱的约束砌体结构.文中首先简要讨论了本次地震强震动特性,表明其高频成分丰富,反应谱中低频部分衰减较快,是刚性结构和柔性结构地震破坏表现差别较大的原因之一;继而论文重点以现场震害调查资料为基础,总结了不同烈度区、不同类型砌体结构的震害特征;高烈度区不同类型砌体结构的震害程度和破坏比对比表明,约束砌体结构的抗震性能明显优于非约束砌体结构. 相似文献
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以2020年1月19日伽师M S6.4地震现场烈度调查结果为基础,综合余震分布、发震构造及仪器烈度值等研究成果,确定了本次地震的烈度分布。此次地震极震区烈度为Ⅷ度(8度),Ⅵ度(6度)区及以上总面积为7599 km 2。分析各个烈度区内不同结构房屋的震害,结果表明,震害较重房屋主要是由于这些房屋年久失修,施工质量不高,缺乏必要的抗震措施等自身原因造成的,其中没有抗震措施的砖木结构房屋是震害主体。随着新疆地区农村房屋的抗震性能提高,在以后的地震烈度调查中,需要现场调查人员依据不同结构房屋的破坏等级及平均震害指数等参数综合判定调查点的烈度值,在没有明显震害的低烈度区,仪器烈度值将会成为烈度图绘制的重要依据。 相似文献
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东圳水库大坝位于福建省莆田市城厢区,该水利枢纽处于华南沿海地震带北段,由于水库建设时我国尚未有抗震设防烈度标准,因此亟需对其抗震稳定性进行复核。以东圳水库大坝为原型,结合已有的地震资料,选用Byrne液化模型,采用FLAC3D软件,研究了在50年超越概率10%、5%和2%地震作用下坝体填料的液化特征及最终位移情况。结果显示,在地震作用下,坝体上游砂砾石填料会发生局部液化,且液化区随着地震强度的增大而增加,但尚未出现大面积连续液化区;坝体填料发生液化后,产生了有限度的塑性变形,其变形量也随着地震强度的增大而有所增加;除坝顶较小区域外,坝体总位移量相对较小,对大坝整体稳定性不会产生显著影响。研究结论可以为大坝的抗震加固和治理措施的选择提供依据和参考。 相似文献
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根据九寨沟Ms 7.0地震现场调查结果,总结了甘肃文县低烈度区震害的一般特征,分析了低烈度区烈度异常点的震害特点,并对产生烈度异常的原因进行了探讨。调查和分析研究结果表明:由于研究区的建筑多在汶川Ms 8.0大地震后进行了重建或抗震加固,且地震持时较短,此次地震中低烈度区房屋震害总体较轻。然而,低烈度区存在建筑裂缝、滑坡、滑塌和桥梁损坏等显著的烈度异常现象,其主要原因是建筑场地位于滑坡体以及高陡边坡等抗震不利地带;此外,地震波的传播方向和研究区内岩土体的特性也是造成低烈度区烈度异常的重要因素。地震地质灾害需在地震烈度评定标准修订时予以重点考虑。 相似文献
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土石坝地震稳定性分析方法是随着科技的进步,特别是计算机技术的快速发展以及对大量土石坝震害现象进行调查研究的不断深入而发展起来的。本文详细介绍了几种典型分析方法的原理、步骤以及优缺点,并对这些分析方法进行了评述,最后总结了近年来土石坝地层稳定性分析方法发展概况,指出了今后的发展趋势。 相似文献
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Lateral response of dams in semi-elliptical rigid canyons 总被引:2,自引:0,他引:2
An analytical closed-form solution is developed for the lateral response of earth and rockfill dams built in semi-elliptical canyons. The dam is idealized as a linearly hysteretic elastic body deforming only in shear, whereas the canyon is assumed to be rigid. The solution for the dam response is given in terms of prolate spheroidal radial and angular functions of the first kind and zero order. Results are presented for natural frequencies, modal displacement shapes, participation factors, and response to transient and steady-state harmonic base excitation for various dam length-to-height ratios. Comparisons are made of the effects of the length-to-height ratio and the canyon shape on the response of dams built in semi-elliptical and rectangular canyons. A subsequent study (Dakoulas, P. & Hsu, C.H., Response of earth dams in semi-elliptical flexible canyons to oblique SH waves, Report, Rice University, Houston, Texas, 1993) extends this model to a semi-elliptical canyon consisting of flexible elastic rock, subjected to obliquely incident harmonic SH waves. 相似文献
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In this study, a finite element limit analysis method is developed to assess the seismic stability of earth-rock dams. A pseudo-static approach is employed within the limit analysis framework to determine the lower and upper bounds on the critical seismic coefficients of dams. The interlocking force in the soil is considered, and the rockfill material is assumed to follow the Mohr–Coulomb failure criterion and an associated flow rule. Based on the native form of the failure criterion, the lower and upper bound theorems are formulated as second-order cone programming problems. The nonlinear shear strength properties of rockfill materials are also considered. The developed finite element limit analysis is applied to two different types of earth-rock dams. The results indicate that the rigorous lower and upper bounds are very close even for rockfill materials with large internal friction angles. The failure surfaces are easily predicted using the contour of the yield function and the displacement field obtained by the limit analysis method. In addition, the pore water pressures are modelled as external forces in the limit analysis to assess the seismic stability of earth-rock dams in the reservoir filling stage. 相似文献
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深厚库底回填料是影响面板堆石坝动力响应的重要因素之一。为深入研究深厚库底回填料对面板堆石坝动力响应的影响,基于某拟建抽水蓄能电站,采用三维动力有限元分析系统研究其上库面板坝的地震反应,主要包括坝体加速度、面板动力响应、接缝变位情况以及库底防渗土工膜的动应变等。计算结果表明:由于库底回填料的存在,坝体加速度放大效应被明显削弱;面板周边以受拉为主,中部大部分区域受压;垂直缝呈现出周边张开、中间闭合的趋势;土工膜的顺河向和坝轴向的动拉应变皆小于屈服应变,最大应变出现在库底材料分界处,为提高坝体渗透安全性,建议对主堆石区与连接板相接处的回填料进行适当范围换填的处理措施。研究成果可以为类似工程提供参考。 相似文献
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调查、搜集和研究了汶川地震中被评定为高危以上险情的147座小型水库土坝的地震破坏情况,给出了高危以上险情土坝的地震破坏程度划分为中等破坏、严重破坏和极严重破坏三个等级的原则和标准,以及土坝的地震破坏程度与地震烈度、土坝的宽高比、上游坡比、坝高的经验关系表,可发现:土坝的几何形状对其破坏程度起着重要的作用;对于6~8度地震烈度区,土坝的宽高比越小,或上游坡比越小,或坝体越高,则土坝的破坏程度越严重;对于9度以上地震烈度区,土坝通常发生极严重破坏。依据高危以上险情土坝的地震反应分析结果,给出了土坝地震破坏程度与土坝宽高比、坝高、土坝上游坡比及坝顶加速度放大系数、坝体最大动剪应力的经验关系曲线,发现在相同的地震烈度水平下,土坝的宽高比越小,或上游坡比越小,或坝高越大,且坝顶加速度放大系数越大或坝体最大动剪应力越大,则其地震破坏程度越严重;坝体最大动剪应力超过30kPa的土坝,通常发生严重或极严重破坏,坝体最大动剪应力大于100kPa的土坝,通常发生极严重破坏;土坝离发震断层越远,则其坝顶加速度放大系数越大。本文给出的高危以上险情土坝的地震破坏程度与坝体几何形状的经验关系,可为今后土坝抗震设计提供参考依据。 相似文献
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《国际泥沙研究》2015,(3)
Landslide dams commonly form when mass earth or rock movements reach a river channel and cause a complete or partial blockage of the channel.Intense rainfalls can induce upstream flows along a sloping channel that significantly affect downstream landslide dams.If a series of landslide dams are collapsed by incoming mountain torrents(induced by intense rainfall),large debris flows can form in a very short period.Furthermore,the failure of these dams can amplify the magnitude and scale of debris flows in the flow direction.The catastrophic debris flows that occurred in Zhouqu County,China on 8 August 2010 were caused by intense rainfall and the upstream cascading failure of landslide dams along the gullies.Incorporating the role of outburst floods associated with the complete or partial failure of landslide dams is an interesting problem usually beyond the scope of analysis because of the inherent modeling complexity.To understand the cascading failure modes of a series of landslide dams,and the dynamic effect these failures have on the enlargement of debris flow scales,experimental tests are conducted in sloping channels mimicking field conditions,with the modeled landslide dams distributed along a sloping channel and crushed by different upstream flows.The failure modes of three different cascades of landslide dams fully or partially blocking a channel river are parametrically studied.This study illustrates that upstream flows can induce a cascading failure of the landslide dams along a channel.Overtopping is the primary failure mechanism,while piping and erosion can also induce failures for different constructed landslide dams.A cascading failure of landslide dams causes a gradually increasing flow velocity and discharge of the front flow,resulting in an increase in both diameter and percentage of the entrained coarse particles.Furthermore,large landslide blockages can act to enhance the efficiency of river incision,or conversely to induce aggradation of fluvial sediments,depending on the blockage factor of the landslide dams and upstream discharge. 相似文献
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The joint between concrete slab and rockfill is designed as welded contact in the classical modeling of concrete-faced rockfill (CFR) dams and earthquake response of the CFR dams is determined by this method. In this study, linear and nonlinear response of Torul CFR Dam including interface element between concrete slab and rockfill were investigated for the duration of strong seismic excitation. The finite element analyses were performed by employing both cases, empty and full reservoir, to research the effect of the reservoir water on the earthquake response of the dam. The reservoir water was modeled with fluid finite elements by the Lagrangian approach. The Drucker-Prager model was used in nonlinear analyses for concrete slab, rockfill and soil materials. According to finite element analyses, displacement and stress components were increased by hydrodynamic pressure. The nonlinear response of the concrete slab was monitored about the peak ground acceleration (pga). This study reveals that the size of sliding zone increases with increasing acceleration amplitudes. 相似文献
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Small scale agricultural earth dams have been damaged by several past earthquakes. Damage to earth dams occurred at distances from the epicentre that increased in proportion to the scale of the earthquakes. On studying the damage a constant relation between the magnitude of the earthquake and maximum epicentral distance where the damage occurred was obtained. This relationship is similar to that obtained between the magnitude and the maximum epicentral distance at which liquefaction occurs. This, and the fact that earth dams which have been damaged several times due to liquefaction were near the critical epicentral distance, suggests that liquefaction of the foundation ground is the main cause of damage to earth dams. 相似文献
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Longitudinal vibrations of concrete-faced rockfill dams may cause significant compressive stresses and joint openings in the slab panels. The behavior of such dams subjected to longitudinal and vertical vibrations is investigated, based on numerical simulation of the staged construction, reservoir impoundment and seismic shaking. The static analysis uses a hyperbolic model for the rockfill, whereas the seismic analysis uses a nonlinear hysteretic model which accounts for the dynamic properties. A damage plasticity model is used for the reinforced concrete and frictional contact behavior is considered at the base and vertical sides of the concrete panels. The seismic analysis takes into account the flexibility of the canyon rock and potential dynamic rockfill settlements. An existing 150 m–high dam is used to investigate the effect of longitudinal vibrations on the compressive stresses near the slab-to-slab vertical interfaces and the opening of the joints. The effect of dynamic settlements is examined and comparisons are made to the response from upstream/downstream and combined vibrations. The effectiveness of introducing 5 cm-wide cuts at selected vertical joints to reduce slab compression in existing CFRDs is demonstrated. The presented results offer useful insight into the effect of longitudinal vibrations on the seismic behavior of CFRDs. 相似文献