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黄河三角洲粉土液化的试验研究 总被引:2,自引:0,他引:2
在野外自然地理和地质调查的基础上,以黄河地区可液化场地粉土为研究对象,利用室内动三轴和振动柱试验进行测定,分析了动荷载作用下粉土的动应力应变关系并模拟了地震荷载作用下粉土的孔压响应及抗液化强度,得出了液化破坏标准,提出了原状粉土的振动孔压上升模型。对试验结果进行分析发现,随着粘粒含量的增加,粉砂、粉土、粉质粘土、粘土达到相同剪应变所需的动剪应力也依次增加;粉土孔压比0.68、粉砂土孔压比0.87作为液化破坏开始的标志;粉土发生液化所需的循环应力比大于砂土。这些研究为以后建立适合本地区的饱和地基土地震破坏判别方法提供了参数和依据。 相似文献
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隐伏逆断层破裂扩展特征的实验研究及其地震地质意义 总被引:3,自引:1,他引:2
通过模拟实验研究了逆断层活动过程中上覆沉积层的破裂扩展特征,采用投影条纹测试方法分析了沉积层表面离面(即垂直)位移场的演化过程。结果表明,在沉积层厚度和断层倾角一定的条件下,基岩中的逆断层逐渐向上扩展,并在沉积层表面围绕基岩断层上断点的投影线形成一个离面位移梯度带(即形变带),基岩断层的位移越大,沉积层中的形变带越宽、变形越强烈;但当断层扩展至沉积层表面后,形变带宽度将保持稳定,只是变形随断层位移增加而更集中。对于同样的基岩断层位移和断层倾角,沉积层厚度越大,受基岩断层控制的形变带越宽,即基岩断层的影响范围越大;当沉积层厚度超过某一临界值时,沉积层中会发育因隆起引起的表面拉张破裂。在沉积层厚度和基岩断层位移量一定的情况下,基岩断层倾角的增加将会使表面形变带的宽度减小,但会使变形破坏程度更强烈。实验结果意味着,临界断层位移、临界沉积层厚度以及断层倾角对于确定隐伏逆断层发震产生的地表变形和破坏特征具有重要意义。文中的研究结果有助于进一步认识汶川MS8.0地震的地表变形特征 相似文献
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南京河西淤泥质粉质粘土卸荷回弹变形研究 总被引:1,自引:0,他引:1
通过大量室内固结回弹试验,研究了南京河西地区淤泥质粉质粘土的卸荷回弹变形规律。固结-回弹-再压缩曲线表明该地区淤泥质粉质粘土的弹性变形要比其塑性变形量小得多,卸荷再压缩后,土体的压缩性也明显降低;通过分析卸荷比和回弹率、回弹应变以及回弹模量的关系曲线,确定了该地区淤泥质粉质粘土的临界卸荷比和极限卸荷比指标,从而可以确定开挖卸荷的影响深度范围。卸荷回弹变形随着卸荷滞留时间的增长,有先增大后减小的特点。试验结果表明,在卸荷与加荷作用下,土体的变形特性、变形模量有着明显差别。 相似文献
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详细分析了应力场数值模拟与物理模拟的实验过程,对比两技术之间实验条件、模型转换、实验结果等方面具有的优势及适用条件,提出两者相结合进行构造成因机制分析的方法,并以高邮凹陷南断阶为例进行了说明.研究认为:数值模拟与物理模拟技术具有各自的优势,前者得到的是变形初期的应力分布结果,主要用于成因解释和变形预测,而物理模拟成果主要反应整个变形过程的构造演化;南断阶的断层分布范围受张应力控制、断层走向受剪应力影响,竹墩和许庄地区具有相似的应力分布和断层形成顺序,故断层组合及成因相似,断裂带由张应力作用产生的NE向断层及张剪应力作用下产生的NNE向、EW向共轭断层共同组成. 相似文献
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在二维应力状态下地震触发砂土液化动应力条件 总被引:6,自引:4,他引:2
在二维应力状态下,地震在土体中不仅产生动水平剪应力τhd,而且也引起在一般情况下不可忽略的竖向与水平动正应力关「σvd-σhd」/2,二者定义为动偏应力之二分量,均应是评估土体或土工结构物变形及其稳定性的主要因素。本文给出了在地震动偏应力二分量共同作用下,土单元中最大往返剪切作用面及其上最大动剪应力比「τd/σs」max的确定方法。据此,提出了地震触发砂土液化的应力条件及液化判别准则。 相似文献
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由于断层错动导致的围岩永久变形会对隧道结构产生危害,为研究隧道在逆断层错动下的变形与受力特征,本文以成兰铁路穿越北川—映秀断裂的跃龙门隧道工程为研究对象,利用Abaqus软件建立穿越逆断层隧道结构的数值模型,选择参数和设定边界条件,模拟分析在逆断层错动作用下隧道衬砌结构的受力与变形情况。结果表明:逆断层错动引起隧道衬砌结构发生了“S”状弯曲变形,衬砌结构的纵向应力随断层位错量的增加而增加,整体表现为衬砌顶部与底部所受拉压应力分布相反;衬砌顶部拉压应力值均大于底部,且衬砌顶部和底部的压应力值均大于拉应力。 相似文献
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为理解震源机制和所作用的应力张量之间的关系,模拟了东西向挤压、垂直向拉张的挤压应力体系,南北向挤压、东西向拉张的走滑应力体系和垂直向挤压、东西向拉张的拉张应力体系所产生震源机制及其剪应力和正应力的表现.结果表明:挤压应力体系可以产生逆断型、走滑型和逆走滑型的震源机制,并随着应力形因子R的增大,逆断型震源机制数目逐渐减小,而走滑型和逆走滑型震源机制数目逐渐增加;走滑应力体系兼有各种类型的震源机制,随着R值的增大,正断型和正走滑型震源机制数目逐渐减小,而逆断型和逆走滑型震源机制数目逐渐增加;拉张应力体系兼有正断型、走滑型和正走滑型震源机制,随着R值的增加,正断型震源机制数目逐渐增加,而走滑型和正走滑型震源机制数目逐渐减小.挤压应力体系在震源机制节面上的最大剪应力分布在R=0时沿倾角45°分布,随着R值增大至1,逐渐演变为沿着以(0°,90°)和(180°,90°)为中心的圆弧分布;拉张应力体系的最大剪应力分布则随着R值自0增大至1,最大剪应力自以(0°,90°)和(180°,90°)为中心的圆弧分布逐渐演变为沿倾角45°分布;走滑应力体系则随着R值自0增大至1,最大剪应力自以(0°,90°)和(180°,90°)为中心的圆弧分布逐渐演变为以(90°,90°)为中心的圆弧分布.三种应力体系所表现的震源机制P,T轴分布呈现复杂多样性:R越小,震源机制的T轴分布在拉张主应力周围的区域范围越小,而P轴分布在挤压轴周围的区域范围越大,R=0.5时两者分布区域范围均衡,R超过0.5时越接近1,震源机制的P轴分布在挤压主应力周围的区域范围越小,而T轴分布在拉张轴附近的区域范围越大. 相似文献
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Recent major seismic events, such as the Chi-Chi (1999) and the Wenchuan (2008) earthquakes occurred in Taiwan and China, have offered a variety of case histories on the performance of structures subjected to reverse faulting–induced deformation. A novel faulting mitigation method has recently been proposed, introducing a soft deformable wall barrier in order to divert the fault rupture away from the structure. This can be materialized by constructing a thick diaphragm-type soil bentonite wall (SBW) between the structure and the fault rupture path. The paper investigates the key parameters in designing such a SBW, aiming to mitigate the fault rupture hazard on shallow foundations. The paper employs a thoroughly validated finite element analysis methodology to explore the efficiency of a weak SBW barrier in protecting slab foundations from large tectonic deformation due to reverse faulting. A dimensional analysis is conducted in order to generalize the validity of the derived conclusions. The dimensionless formulation is then used to conduct a detailed parametric study, exploring the effect of SBW thickness w/H, depth HSBWl/H, and shear strength τsoil/τSBW, as well as the bedrock fault offset h/H, foundation surcharge load q/ρgB, and fault outcrop location s/B. It is shown that the wall thickness, depth, and shear strength should be designed on the basis of the magnitude of the bedrock fault offset, the location of the fault relative to the structure, and the shear strength of the soil. The efficiency of the weak barrier is improved using lower strength and stiffness material compared to the alluvium. A simplified preliminary design methodology is proposed, and presented in the form of a flowchart. 相似文献
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Dimitrios Loukidis George D. Bouckovalas Achilleas G. Papadimitriou 《Soil Dynamics and Earthquake Engineering》2009,29(11-12):1389-1404
This paper presents results from numerical simulations of the propagation of an active dip–slip fault rupture through a uniform soil layer covering the rigid bedrock. Following verification of the numerical methodology against field evidence, a parametric study is performed for loose and dense sand, for normally consolidated and overconsolidated clay, as well as for different fault dip angles (normal and reverse faults) and for different thicknesses of the soil cover. The soil is modeled as an elasto-plastic, strain-softening material that obeys the Mohr–Coulomb failure criterion. The study aims at establishing criteria for the approximate depiction of the location and the width of the zone with significant ground surface distortion, where the differential ground displacements induced by the fault rupture may threaten the integrity of man-mad structures. 相似文献
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地震后在断层两侧的强变形与破裂带是地震灾害最严重的区域.为系统、定量研究同震地表变形带特征及其影响因素,本研究建立了走滑断层的三维有限元模型,分别探讨了断层位错量、断层倾角、错动方式、上覆松散层厚度、沉积层土性等因素的影响规律.模拟结果显示:走滑断层同震地表变形表现为以断层为中心的近似对称单峰分布,强地表变形集中在断层两侧各50 m宽度范围,地表变形量峰值随位错量增加而增大,破裂带宽度也随位错量增加而增大,但增量逐渐减小,并趋于一个渐近值;断层倾角对地表变形与破裂带宽度影响表现为随倾角减小变形量峰值点向上盘小距离偏移;走滑兼正断位错引起的变形量峰值最大,但地表破裂带宽度最小,走滑兼逆断引起的变形量峰值最小,但地表破裂带宽度最大,直立纯走滑断层的两参量都居中;走滑断层地表变形量峰值随上覆松散层厚度增大而减小,但随厚度减小的速率逐渐变小,松散层厚度从5 m增加到20 m时,破裂带宽度随厚度增加而缓慢增加,但自厚度大于20 m时,破裂带宽度开始随厚度增加而逐渐下降;当不同土性覆盖层(粗砂、粉砂、黏土)厚度相同时,地震引起的地表变形量峰值自粗砂、粉砂、黏土逐次增大,当粗砂厚度为60 m以上时,3.6 m的同震水平位错已不能形成地表破裂,而粉砂的厚度为70 m以上,黏土的厚度则为75 m以上. 相似文献
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断层泥在基岩区断层新活动研究中的意义 总被引:21,自引:0,他引:21
断层泥在基岩区断层新活动研究中的意义在于:利用断层泥中粘土矿物的组合、成分、结晶程度可以判定断层活动时的物理环境;断层泥带的宽度与断层的位移量有一定的线性关系,从而可用于确定断层的位移量;断层泥的显微构造特征及其中石英碎砾的表面结构,可以提供有关断层活动方式、性质、期次、时代等重要信息。对断层泥进行包括野外详细观测、室内显微构造分析以及年龄测定在内的综合研究,是确定基岩区断层新活动特征的行之有效的方法。 相似文献
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利用2001年昆仑山口西MS8.1地震现场观测所提供的地表破裂同震位移数据,使用简单滑移弱化破裂模型,估算了发震主断层上的破裂传播速度. 该模型中考虑了断层破裂时动摩擦过程中应力上调和下调机制对地震波辐射能量分配的影响. 对比Bouchon和Valleacute;e有关昆仑山口西地震主断层破裂传播速度超过剪切波速度,甚至达到P波速度的结果, 采用动摩擦应力下调时的滑移弱化模型 (分数应力降模型),结果表明,伴随较高的地震波辐射效率,主断层的平均破裂传播速度等于或小于瑞利波速度,这与许力生和陈运泰的体波反演结果,以及陈学忠震源应力场估算的结果是一致的. 最后,联系到由地表破裂现象所反映出的断层力学特征,如与视应力相关的分数应力降 (动摩擦应力下调), 基于滑移弱化模型, 讨论了可能的震源破裂机制. 相似文献
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Understanding mass fluvial erosion along a bank profile: using PEEP technology for quantifying retreat lengths and identifying event timing 
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下载免费PDF全文 A. N. Thanos Papanicolaou Christopher G. Wilson Achilles G. Tsakiris Tommy E. Sutarto Fabienne Bertrand Massimo Rinaldi Subhasish Dey Eddy Langendoen 《地球表面变化过程与地形》2017,42(11):1717-1732
This study provides fundamental examination of mass fluvial erosion along a stream bank by identifying event timing, quantifying retreat lengths, and providing ranges of incipient shear stress for hydraulically driven erosion. Mass fluvial erosion is defined here as the detachment of thin soil layers or conglomerates from the bank face under higher hydraulic shear stresses relative to surface fluvial erosion, or the entrainment of individual grains or aggregates under lower hydraulic shear stresses. We explore the relationship between the two regimes in a representative, US Midwestern stream with semi‐cohesive bank soils, namely Clear Creek, IA. Photo‐Electronic Erosion Pins (PEEPs) provide, for the first time, in situ measurements of mass fluvial erosion retreat lengths during a season. The PEEPs were installed at identical locations where surface fluvial erosion measurements exist for identifying the transition point between the two regimes. This transition is postulated to occur when the applied shear stress surpasses a second threshold, namely the critical shear stress for mass fluvial erosion. We hypothesize that the regimes are intricately related and surface fluvial erosion can facilitate mass fluvial erosion. Selective entrainment of unbound/exposed, mostly silt‐sized particles at low shear stresses over sand‐sized sediment can armor the bank surface, limiting the removal of the underlying soil. The armoring here is enhanced by cementation from the presence of optimal levels of sand and clay. Select studies show that fluvial erosion strength can increase several‐fold when appropriate amounts of sand and clay are mixed and cement together. Hence, soil layers or conglomerates are entrained with higher flows. The critical shear stress for mass fluvial erosion was found to be an order of magnitude higher than that of surface fluvial erosion, and proceeded with higher (approximately 2–4 times) erodibility. The results were well represented by a mechanistic detachment model that captures the two regimes. Copyright © 2017 John Wiley & Sons, Ltd. 相似文献
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With co-seismic surface rupture slip displacements provided by the field observation for the 2001 MS8.1 West Kunlun Mountain Pass earthquake, this paper estimates the rupture speed on the main faulting segment with a long straight fault trace on the surface based on a simple slip-weakening rupture model, in which the frictional overshoot or undershoot are involved in consideration of energy partition during the earthquake faulting. In contrast to the study of Bouchon and Vallée, in which the rupture propagation along the main fault could exceed the local shear-wave speed, perhaps reach the P-wave speed on a certain section of fault, our results show that, under a slip-weakening assumption combined with a frictional undershoot (partial stress drop model), average rupture speed should be equal to or less than the Rayleigh wave speed with a high seismic radiation efficiency, which is consistent with the result derived by waveform inversion and the result estimated from source stress field. Associated with the surface rupture mechanism, such as partial stress drop (frictional undershoot) associated with the apparent stress, an alternative rupture mechanism based on the slip-weakening model has also been discussed. 相似文献
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Surface fault rupture has caused significant damage to structures in several earthquakes. The propagation of the bedrock fault rupture through the overlying soil deposit has been studied by several researchers; however, the effects of fault rupture dynamics, as opposed to pseudostatic fault movement, have not yet been evaluated. There is the potential for dynamic effects to influence significantly structural damage due to the rapid rate of deformation imposed by surface fault rupture. Numerical simulations are performed to analyze the effects of the rate of fault rupture on dip-slip surface fault rupture for free-field and soil-structure interaction conditions. The numerical results indicate that in some limited scenarios, fault rupture dynamics can influence the amount of structural damage expected for a structure located near a fault. However, in most scenarios, fault rupture dynamics is expected to play a secondary role compared to fault, soil, and structural characteristics in evaluating building performance. 相似文献
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An M 8.1 earthquake that occurred west of the Kunlun Mountains Pass has caused more than 20 collapse bodies or zones, which are mainly distributed near the surface seismic rupture zone, west of Hoh Sai Lake. The collapses are of four types, bedrock, soil mass and ice mass collapses and avalanches. The spatial distribution and the characteristics of development of the collapses are analyzed in the paper. Comparised with those caused by other earthquakes, the collapses are smaller in scale. In addition to the lithological characteristics of the crustal media, topographic, geomorphic and climatic factors, weaker seismic ground motion is an important cause for formation of the smaller-scale collapses. The long surface rupture zone and weaker ground motion are important features of the seismic rupture, which may be related to the structure of the preexisting fault. 相似文献