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1.
塑料套管混凝土桩挤土效应现场试验 总被引:2,自引:0,他引:2
结合申嘉湖杭高速公路练杭段加固软土地基工程开展了塑料套管混凝土桩挤土效应的现场试验研究。设地表观测点观测桩打设过程中桩周土体隆起情况;采用绑定仪器的方形木桩等效模拟塑料套管混凝土桩研究不同时刻桩侧挤土压力和孔隙水压力的变化。结果表明打桩过程中在距桩中心约2.2倍沉管外径处地面隆起量最大,约为沉管外径的17.2%;打设完成第一根相邻桩(距离1.6 m)桩侧土压力及孔隙水压力增大10%~20%,其后随着打设桩距木桩距离的渐远,两次打桩后的土压曲线和孔压曲线变化不大,仅在下部桩端处变化较大;场地内桩打设完毕后,沉桩引起的超孔隙水压力逐步消散。根据实测数据建议塑料套管环刚度控制在8~16级。 相似文献
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编制完全耦合的三维排水有效应力动力反应分析程序,对可液化地基进行三维地震响应分析,探讨了不同土性参数、不同土层构成和不同附加压重等因素对可液化地基抗液化性能的影响。结果表明:在地震荷载作用下,天然饱和砂土地基中的超孔隙水压力随深度的增大而增大;在不同深度处,超孔压峰值到达的时刻比地震加速度峰值到达的时刻要晚;随输入地震加速度的减弱,深层处的超孔压开始消散或基本保持不变,浅层处的超孔压保持不变或略有上升,这一现象与土性参数、输入地震荷载的情况等因素有关;土性参数对土体本身的抗液化性能有重要影响,初始孔隙比越小,相对密度越大,土体的抗液化能力越强;附加压重有利于地基抗液化能力的提高;随着附加压重的增大,超孔压比减小;附加压重对地基中超孔隙水压力的增长有明显的抑制作用。 相似文献
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新型套管排水桩技术的原理是将排水盲沟与桩结合起来,排水盲沟提供了桩周的排水通道,在地震发生时,可以有效降低桩周土体产生的超孔隙水压力,达到抗液化的目的。开展了套管桩与不设置排水盲沟的普通桩的静动力数值模拟,结果表明:套管桩的复合地基承载力与等直径普通桩的承载力接近,排水盲沟的设置没有减弱桩的承载能力,在地震作用下,套管桩的排水盲沟可以有效降低桩周产生的超孔隙水压力,提高桩周土体的有效应力,达到地基抗液化的目的。 相似文献
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基于ABAQUS有限元软件平台,应用流固耦合两相介质动力模型孔压单元模拟场地饱和土体,进行了饱和土体-地下结构地震反应的计算研究。结果表明:在地震输入的最后时刻结构的两侧底角区域应力值最大;土体的孔隙压力和竖向位移主要集中在结构下方的区域,结构两侧土体的孔压与竖向位移呈对称分布;场地土体的竖向位移随深度的增加逐渐减小;体系最大地震反应出现的时刻对应于输入地震动的最大加速度出现的时刻。表明了流固耦合两相介质动力模型孔压单元在饱和土体-地下结构体系地震反应研究中的有效性。 相似文献
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将废弃橡胶轮胎内填充散体材料形成加筋土结构,已被应用于地基、挡土墙和边坡加固等工程,表现出较好的减震隔振效果,而轮胎加筋土的抗液化性能尚缺乏研究。开展3组小型振动台试验,通过改变轮胎垫层的排水条件,验证轮胎加筋砂垫层的抗液化效果。结果表明:轮胎加筋砂垫层具有良好的抗液化效果,与刚性垫层相比,超静孔压比峰值差值范围在0.01~0.19,残余超静孔压比差值范围在0.08~0.16,轮胎加筋砂垫层提供的排水通道具有抑制超静孔隙水压力发展和加速超静孔隙水消散的作用,孔隙水会沿着轮胎与下部土体的界面以及胎间的排水通道排出;采用量测侧向动土压力的方法,定义土体液化程度量化指标,进一步验证轮胎加筋砂垫层抗液化效果;振动过程中轮胎加筋垫层表面沉降范围为11.3~15.7 mm,表现出较好的变形协调性能。 相似文献
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基于地震模拟振动台试验,配制3组不同平均粒径和3组不同细粒含量的6个砂土模型,通过埋置于砂土内部的传感器监测模型内部不同位置的超孔隙水压力等指标,分析砂土模型内部的超孔隙水压力时程曲线及孔压比时程曲线,归纳出地震波加载峰值、砂土平均粒径、细粒含量及埋置深度等因素对饱和砂土液化特性的影响规律。试验结果表明:随着地震波加载峰值的增大,砂土模型液化程度逐渐增大,液化势逐渐增大,抗液化强度逐渐减小;随着砂土埋置深度的增加,砂土细粒含量的增加,砂土平均粒径的增加,砂土模型液化程度逐渐减小,液化势逐渐减小,其抗液化强度逐渐增大。同时,试验结果还表明,砂土液化各影响因素对砂土液化的影响程度依次为地震波强度>砂土埋置深度>砂土平均粒径、细粒含量。试验结果可为后续数值模拟的参数选取提供支持,为研究其他因素对砂土液化的影响提供参考。 相似文献
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采用2.5维有限元方法分析孔隙水压力对饱和路基地面振动的影响。根据Biot理论建立饱和多孔介质控制方程,采用双重Fourier变换将控制方程转换为频率 波数域表达式。采用2.5维有限元方法建立饱和路基模型,列车荷载在频率 波数域表示,轨道和路堤采用欧拉梁模拟,采用黏滞阻尼吸波边界减小有限元边界反射。分析列车速度、路基孔隙率和渗透系数对地面振动和孔隙水压力的影响。结果表明:车速较低时,由于饱和路基受孔隙水压力的影响,地面竖向振幅小于弹性地基;车速较高时,孔隙水压力急剧增加,对地面振动影响较大。列车运行速度较高时,饱和地基的孔隙率和渗透系数对孔隙水压力有较大影响。 相似文献
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本文在实验室中采用定常压力差法在围压10—20MPP、注水压力为2.5—12.SMPS条件下对新丰江水库区花岗岩及刘家峡水库区变质岩进行了渗透实验,观测到了岩石渗透率随围压、注水压力及时间变化的结果,并且得到了渗透率随时间衰减的经验关系l。(t)=k。XEXP(一、t)。实验结果表明:完整岩石、自然裂而中含填充物岩石、自然裂面岩石的渗透率依次增大两个数量级。在实验中,恒定注水压力时渗透率明显地随着围压的增大而减小,当国压变化发生循环时,渗透率产生了不可恢复的减小;当恒定因压时,渗透率随着注水压力的变化取决于流体水对裂面的冲刷、溶解及沉淀堵塞作用而不可预测。最后根据该实验结果讨论了水库地震中水沿断裂系统渗透过程中渗透水的前锋形成高孔隙压力而触发地震的机制。 相似文献
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研究交通循环荷载作用下路基软黏土的长期沉降和动力力学性质对路基设计具有重要意义。本文通过GDS动三轴实验,研究(不排水条件下)振动波形、排水条件以及动应力比三因素对于软黏土动应变和动孔压的影响。试验结果显示:排水条件对饱和软黏土的动应变和动孔压影响最大,在部分排水条件下动孔压逐渐消散,动应变迅速发展。振动波形对软黏土动应变和动孔压影响较大,单向纯压半正弦波作用下软黏土的动应变和动孔压较容易达到最大值。在较少的振次内动应力比对孔压影响较大,但在归一化的孔压模型中,动应力比对孔压影响较小。通过以上分析,本文建立包含循环振次和纯压因素的孔压增长模型。 相似文献
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ABSTRACTThe problem of transmission of pressure head through the zone of tension saturation in the Lisse effect (LE), i.e., the rapid response of groundwater level to pressurized pore air in the unsaturated zone, is investigated theoretically and experimentally. From the law of conservation of energy and the continuity equation, a one-dimensional diffusion equation is derived for transmission of pressure head through the zone of tension saturation. The solution to the equation is the pressure head at any point below the upper boundary of the zone of tension saturation and at any time after the compressed pore air pressure is imposed on the boundary. The key parameter, which determines the behaviour of transmission of pressure head, is the newly proposed pressure head diffusivity coefficient. The theoretical results agree with the experimental results, obtained from laboratory column experiments in three physically different soils.
Editor Demetris Koutsoyiannis Associate editor Xi Chen 相似文献
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The method of measuring the pore pressure of stratum fluid in deep bore-holes is presented. Taking the sedimentary basins
in North China as an example, the variation law of pore pressure measured in strata within the depth range of 0 to 4 km is
analyzed. Furthermore, the relation between the regional distribution of abnormal pore pressures in 3 000 m depth and seismic
activities is discussed in connection with the earthquakes of M
S5.0 that occurred after 1 900 in the studied region. The study result indicates that the strata pore pressure P
0 measured in deep bore-holes is not exactly the same as the hydrostatic pressure PH. Ultra pore pressure does exist, though
not commonly. The relation that the pore pressures (P
01, P
02 and P
03) measured in exploration, evaluation and exploitation wells in Oil-fields and the hydrostatic pressuree (P
H) of the above wells is as follows: 1 P
01>P
02>P
H>P
03 in areas with ultra pore pressures; 2 P
H>P
01>P
02>P
03 in areas where the pore pressures are normal or on the lower side. The relation between the regional distribution of ultra
pore pressures and the activity of earthquakes of M
S5.0 has been analyzed. The result shows that, with latitudes 36.0°–36.5°N as a demarcation, pore pressures are ultra-high
in the south and are normal or lower in the north. In the south, the measured pore pressure is obviously higher than the hydrostatic
pressure below the depth of about 2 000 m and it increases as a power function with increasing depth; meanwhile, the earthquake
activity there is weaker. In the north, however, the measured pore pressure increases as a linear function with increasing
depth; meanwhile, the earthquake activity there is stronger.
This project sponsored by the Chinese Joint Seismological Science Foundation. 相似文献
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孔隙压岩石三轴摩擦实验装置是研究孔隙压对岩石滑动面摩擦性状影响的专用设备.该设备包括孔隙压岩石三轴实验装置和岩石摩擦装置两部分.摩擦装置由上、下压头,密封套筒和具有内部滑动块体的岩石样品组成.滑动面宽20×20mm、高40mm 的长方体,滑动面宽20mm、高30mm.最大孔隙压P_(max)=100MPa,最大位移L_(max)=10mm.应用该装置将三轴条件下样品之间的斜向摩擦滑动变为轴向滑动.滑动面上的法向压力σ_n=σ_3,即σ_n 变为与轴压无关的独立变量. 相似文献
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Liquefaction of seabed under seismic loading is one of the main points that govern the overall stability of submarine pipeline. However, most previous investigations concerned only with free seabed and searched for seismic accumulative excess pore pressure by solving Terzaghi's consolidation equation containing pore pressure source term. It is not able to introduce two-dimensional structures such as submarine pipelines in one-dimensional problem, and it is also not able to obtain the distribution of seismic accumulative excess pore pressure in seabed around submarine pipelines by such a way. In this study, a FEM numerical analysis method for determining the liquefaction of sandy seabed around a buried pipeline under seismic loading is presented. The empirical mode of dynamic increase of pore pressure under undrained shearing induced by seismic loading is incorporated with two-dimensional dynamic consolidation equation and a numerical procedure based on FEM is developed to assess the accumulative excess pore pressure. By numerical computations, the accumulative process of pore pressure and liquefaction potential of seabed soil during seismic loading is evaluated. From a series of numerical computations based on the presented model with various parameters, the effects of soil characteristic parameters and pipeline geometry on seismic accumulative excess pore pressure around submarine pipeline and along the depth of seabed are explored in detail. 相似文献
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Issei Doi Sumio Matsuura Hikaru Osawa Tatsuya Shibasaki Shinichi Tosa 《地球表面变化过程与地形》2020,45(10):2291-2299
Coastal erosion is becoming an increasingly serious consequence of climate change. This study demonstrates the effects of coastal erosion on landslide activity while considering the amount of erosion and changes in pore water pressure. To determine the factors related to landslide slip generation, we specifically measured the displacement, deformation, pore water pressure, and amount of erosion with high temporal resolution (1 s–1 h) for a coastal landslide in Hokkaido, north-eastern Japan, for 7 months. It has been determined that landslides occur simultaneously with high pore water pressure. Toe erosion events also occurred several times, while the landslide exhibited major displacement. Because toe erosion and the increase in pore water pressure occurred simultaneously, we tried to determine which of the two contributed majorly to the landslide displacement by conducting a stability analysis that incorporates the effects of the two factors. From the actual observed data, toe erosion and the increase in pore water pressure had comparable effects on the destabilization of the studied landslide. Specifically, the time series for the safety factor shows that the landslide in the case with toe erosion was destabilized more than that in the case with no erosion, with a difference of more than 5% in the safety factor. The model with toe erosion provided a better explanation for the landslide displacement. Furthermore, the inclination data suggested that erosion took place at least 1 month before the landslide displacement. This implied that coastal erosion played a role in the preparation and ongoing displacement of the coastal landslide. Inland landslides with toes that are subject to undercutting due to river incision or artificial construction have geomorphological settings that are similar to those of the studied landslide. The knowledge obtained here can contribute to the understanding of destabilization mechanisms and terrain changes related to such landslides. © 2020 John Wiley & Sons, Ltd. 相似文献
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分时段研究降雨、钻孔水位、工程施工等因素对青岛地震台体应变的影响,研究结果表明:钻孔水位反映区域地下水主要由降雨补给,降雨下渗改变地下水状态,并影响体应变观测;青岛体应变与钻孔水位的相关性及其周期特性均在2015年前后出现变化,可能与2015—2016年降雨偏少及工程施工有关;2018年1月17日台站钻孔施工很可能改变了体应变周围岩石孔隙环境,并扩大孔隙压力作用系数,可解释2018年3月以来水位小幅上升引起的体应变显著压性上升现象,受钻孔施工的影响,体应变与钻孔水位相关性的滞后特征明显减弱。 相似文献
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地壳岩石的渗透性状及孔隙水对岩石力学性质的影响 总被引:3,自引:0,他引:3
本文概述地壳岩石渗透性状和孔隙水对岩石力学性质影响的研究现状及已取得的成果;指出孔隙压的形成及分布,孔隙度、渗透率与孔隙压的关系。孔隙压的有效应力,孔隙压对岩石形变。破裂机制的影响以及从断裂力学观点考察孔隙压的作用等系今后该领域研究的主要课题和发展方向。 相似文献
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工业界计算孔隙压力系数普遍应用的Eaton和Fillippone方法都需要构建能够准确表征低速层的层速度模型,层速度模型精度及效率成为制约孔隙压力预测的关键参数,但目前工业界层速度建模的精度及效率很难满足孔隙压力预测的要求.本文由正常压实情况下的背景速度场出发,基于时距曲线公式及角道集抽取公式,创新推导了以角度域共成像点道集(ADCIGS)剩余曲率为自变量的孔隙压力系数计算公式,该公式完全由去噪后的地震数据进行驱动,不需要构建层速度模型,该方法大幅提高了计算孔隙压力系数的效率.由模型测试及实际数据应用证明,利用本文提出方法进行孔隙压力预测是有效可行的,该方法可以有效提高预测孔隙压力精度,还可以有效提高预测孔隙压力效率. 相似文献