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天然黄土因其较强的结构性,制备大尺寸原状试体非常困难,国内外尚无针对饱和原状黄土实施振动台模拟试验的数据与资料。通过解决大尺寸原状黄土试体现场取备难题,利用振动台模拟试验研究饱和原状黄土液化现象及其基本特征。试验结果表明:饱和原状黄土的液化现象,在超孔隙水压力增长、持续与消散的趋势性上与饱和砂土具有可比性,二者的最大差别在于细节特征方面的不同;饱和度是决定地震作用下天然黄土液化特性的首要条件;试体饱和度约为90.3%的条件下,加载后的最大孔压比约为0.93;饱和度85%、75%和65%可能是天然黄土能否发生液化现象、似液化现象(循环失效)和不考虑循环失效现象的临界值。试验获得的资料与分析结果,对深入理解饱和土体液化物理过程与力学机制意义重大。 相似文献
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黄土液化演化过程的微观机理分析是液化防御的科学问题之一。通过微细观及动力学试验探索黄土液化的本质和影响因素。首先用CT细观扫描实验探索黄土渗透液化的细观变化,研究表明土体液面上升的根本原因是弱碱性盐类胶结物的吸水作用导致土样含水面整体上升;试样达到高饱和度,大孔隙周围颗粒间胶结物质破坏后有效应力为零,土层液化。粉土的孔隙尺寸和特殊的胶结物质导致高饱和度。土样微观结构的差异也会影响土的液面上升和破坏强度。针对低黏性粉土、粉质砂土及粉质黏土的三类黄土液化实验分析表明,低黏性粉土动荷加载时间更短,更易于液化,即低粘性粉土液化最为严重,粉质砂土为中等液化,粉质黏土相比其他黄土类别不易液化。电镜扫描土样微观结构参数分析表明,土颗粒周围胶结物质的化学元素比值(Ca/Fe),以及土颗粒粒径分布和孔隙尺寸(孔隙与颗粒比)均影响液化等级,可初步判断液化的强弱。 相似文献
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The concept of a ‘niveo-aeolian influence’ on the genesis of northwest European Pleistocene aeolian sand and loess deposits has been advocated in the past both to explain the presence and the absence of lamination. Field experiments were carried out on artificially deposited alternating layers of sand and snow, and of loess and snow, to investigate the role of a niveo-aeolian mode of deposition on resulting sedimentary structures. Field observations of sand plots revealed minor changes in surface morphology typical of denivation surfaces. The thin sections showed a characteristic porous structure. Deformations of the depositional structure and indications for erosion and redeposition were limited. However, the originally smooth aeolian sedimentary surface of the loess changed considerably. The thin sections showed also a porous, spongy structure. Indications were found for disturbances by frost action, liquefaction during melting of the snow and ice, and redeposition of loess by meltwater. The experimental results strongly suggest that sand and loess deposited as niveo-aeolian material are characterized both by a porous structure, and that the original sedimentary structure of the sand is not affected by snowmelt, whereas loess becomes non-laminated. Thus, the intercalation of snow during sedimentation of sand and loess does not in itself induce a laminated structure. 相似文献
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黄土液化机理和判别标准的再研究 总被引:2,自引:0,他引:2
本文结合作者的试验研究和国外最新研究进展对黄土液化问题作了一些深入讨论。在一定的条件下,黄土可能发生液化,而且相当一部分黄土符合“修正的中国标准”。从液化机理上讲,黄土液化属于流滑。试验研究发现,黄土液化过程与应变发展有内在的联系,因而在动三轴试验中用轴向应变作为黄土初始液化的判别条件更符合实际。最后,通过对俄罗斯、美国和中国黄土的对比研究,作者认为黄土的粒度组成对黄土的液化特性有明显的影响。 相似文献
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黄土具有极强的水敏性和动力易损性,黄土地区多次强震都引起过液化、滑坡等地质灾害,造成了严重的人员伤亡和财产损失,因此振动作用下高含水率黄土的液化问题不容忽视。在大量已有研究的基础上,以宁夏党家岔滑坡为例,研究振动作用下高含水率黄土的液化问题。现场调查发现高含水率滑带土并未达到完全饱和状态(饱和度达95%左右),在新鲜的芯样断面发现有明显的"流态化"液化破坏特征。借助室内试验和数值模拟技术,对党家岔滑坡非饱和黄土层的液化性能及液化发生机理进行分析。结果表明:(1)非饱和黄土层液化发生机理可概括为:地震作用下饱和黄土层孔隙水压力激增,高含水率非饱和黄土层孔压增长响应滞后,随着孔隙水压朝上部消散,地下水向上渗流,当平均有效应力接近0时,高含水率非饱和黄土层发生液化;(2)振动过程中不同饱和度黄土孔隙水压力增长响应具有滞后性,借鉴饱和黄土液化时孔压比的判别标准和Seed简化判别法,初步证实党家岔滑坡高含水率非饱和黄土层可发生振动液化,斜坡前缘和中部土体发生液化的初始饱和度范围分别为68.3%~100%和73.8%~100%,斜坡后缘土体不发生液化。 相似文献
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为研究1920年海原地震中石碑塬地区液化滑移灾害的形成机制、滑移特征及滑移距离,对石碑塬液化滑移区进行钻孔勘探、取样以及探槽开挖。分别对钻孔及所取试样进行剪切波速测试及颗粒分析、室内动三轴试验,得出石碑塬液化滑移区地层分布情况、震时液化土体层位以及不同地震烈度条件下砂质黄土层的液化情况。综合分析钻孔勘探、颗粒分析、动三轴试验结果,揭示出海原地震中石碑塬黄土地层液化滑移灾害的形成机制:砂质黄土层液化后在自重应力以及地震力的共同作用下"托浮"第一古土壤层以及上部"粉尘化"的非饱和黄土层沿缓斜坡运动,并利用液化滑移地层滑距公式对滑移距离进行估算,得到结果为223.35 m,与实际情况较为相符。研究结果可为黄土地层液化滑移灾害的预防提供一定的借鉴意义。 相似文献
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为了经济、环保地达到改良处理减轻饱和黄土地基液化震害的目的,通过配备不同粉煤灰掺量的改良黄土进行动三轴试验,研究饱和粉煤灰改良黄土的动应力、动应变和动孔隙水压力变化特征,分析粉煤灰掺量对饱和改良黄土液化应力比、动残余变形和动孔隙水压力的影响规律,并结合微结构试验结果,探讨饱和粉煤灰改良黄土抗液化的物理化学机制。结果表明:粉煤灰掺量对饱和改良黄土的液化应力比、动应变和动孔隙水压力比均具有较为显著的影响。随着粉煤灰掺量的增加,饱和改良黄土的液化应力比持续增加,且当掺量达到15%后,继续增加粉煤灰掺量时改良黄土的液化应力比增加显著。饱和改良黄土的动应变和动孔隙水压力比均随着粉煤灰掺量的增加而减小;掺量达到25%后,饱和改良黄土不液化。饱和粉煤灰改良黄土的SEM细观结构试验照片中呈现大量的圆球状、粒状粉煤灰颗粒和絮凝状胶结物,表明其抗液化的物理化学机制主要包括粉煤灰的水化作用、胶体生成物和颗粒的填隙作用和粉煤灰对游离水的吸附作用。 相似文献
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This paper presents an evaluation of the liquefaction potential of loess in Lanzhou, China, and Memphis, USA. The topography, stratigraphy, and genesis of loess in these two areas were investigated and compared. Several loess samples in each study area were taken and their physical indices were determined. In addition, the microstructures of these loess samples were investigated using an electron microscope, and dynamic triaxial tests were performed using an artificial seismic wave. The results of this investigation indicated that both Lanzhou loess and Memphis loess have a potential for liquefaction, but Memphis loess is less susceptible to liquefaction. Furthermore, Lanzhou loess and Memphis loess behave differently during ground shaking. 相似文献
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Fanyu Zhang Jianbing Peng Xiugang Wu Fazhen Pan Yao Jiang Chao Kang Weijiang Wu Wenguo Ma 《地球表面变化过程与地形》2021,46(10):2060-2078
Flowslides that override a liquefied substrate can vastly enhance a disaster after failure initiation. These effects may result from the rapid velocity and long runout distance from slides mobilized into flows. It is thus crucial to provide an improved understanding of the transformation mechanisms of catastrophic flowslides for hazard evaluation. This study examines the Saleshan landslide in Gansu, China, which occurred in 1983 and killed more than 200 people. The Saleshan landslide travelled for approximately 1 km due to pore water pressure generation resulting from overrunning and liquefication of the alluvial sands in the river valley below. We used geomorphologic and topographic maps to determine its dynamic features and mobilization behaviors on the landslide body, and placemarks and seismic signals to identify its approximate velocity at different sites. Electrical resistivity tomography (ERT) surveys also revealed the hydrogeological conditions post-landslide, showing a clear groundwater table along with the liquefied alluvial sand and gravel layers. Particle size distributions and triaxial shear behaviors confirmed more ready liquefaction of superficial loess and underlying alluvial sand in comparison with the red soil above and below them. Novel loading impact triaxial testing was also performed on the alluvial sand to elucidate its liquefaction potential in undrained and drained conditions. The alluvial sand was found to be markedly prone to liquefaction in undrained conditions due to impact-induced increased pore water pressure. The results further demonstrated that the Saleshan landslide underwent a transformation from a slowing slide on a steep slope, where it originated, to flow on a nearly flat terrace with abundant groundwater that it overrode. The transformation mechanism involved the liquefied alluvium sand substrate, which greatly enhanced the landslide mobility. Along with recent, similar findings from landslides globally, substrate liquefaction may result in a widespread, significant increase in landslide mobility and thus hazard, and the present study identifies the requisite conditions for this phenomenon to occur. 相似文献
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采用MTS810动三轴试验仪,用二氧化碳+脱气水循环渗流法对重塑黄土进行饱和,进行了一系列对石碑塬滑坡区饱和黄土液化后变形特性试验。考虑干密度和初始有效围压对黄土液化后变形特性的影响,将液化与未液化黄土在单调静荷载作用下的应力-应变曲线进行对比。实验结果表明:利用二氧化碳+脱气水循环渗流法可以使重塑黄土饱和取得较好的效果;饱和石碑塬黄土具有明显的液化特征,在强震作用下发生液化,液化后强度大大衰减,应力-应变曲线呈弱硬化型,分为两个阶段;干密度和初始有效围压对液化后黄土的强度有一定影响,初始有效围压与不排水强度呈拟合度较高的线性关系,初始有效围压越高,液化后不排水强度越大。 相似文献
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目前,主要依靠室内动力试验对黄土液化势进行评价。由于黄土特殊的结构性,室内试验对其饱和的过程较为复杂,且与实际场地饱和黄土差异明显,导致室内黄土液化试验结果并不能代表现场饱和黄土的抗液化强度。本文选取兰州市西固区寺儿沟村某饱和黄土场地进行钻孔测试,现场实施了标准贯入试验、静力触探试验以及剪切波速测试。应用Robertson的土类指数分类图对该场地不同含水率黄土的土类进行了界定,确定了饱和黄土属于类砂土,有液化势。应用NCEER推荐方法,计算了3组原位试验数据的饱和黄土循环抗力比(CRR),通过与1976年唐山地震和1999年集集地震液化土CRR对比,得出了饱和黄土抗液化强度很低的结论。 相似文献
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地震液化型路堤边坡安全性问题涉及岩土工程与工程地震两个学科领域,是边坡工程与砂土液化的交叉课题。路堤边坡在地震时,因基础之下的砂土发生液化现象,会急剧发生地基承载力丧失、液化沉陷、侧向流动、液化喷砂、整体滑动等问题。应用NCEER液化评估方法(SPT)、Mononobe-Ok-abe方法、Koerner方法和Fellen ius方法,以抗液化安全系数、液化侧向流动安全系数、液化喷砂安全系数和抗滑安全系数为评价指标,系统对地震液化型路堤边坡安全性进行了分析、计算和评价。结果显示,文中方法对地震液化型路堤边坡安全性分析具有适用性。 相似文献