共查询到19条相似文献,搜索用时 218 毫秒
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通过对青海省察尔汗盐湖地区裹体碎石桩复合地基的静载试验,认为复合地基试验中堆载反力梁装置及正确布设基准梁对试验结果有较大的影响。 相似文献
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对由碎石桩和CFG桩构成的多桩型复合地基的作用机理进行分析,通过数值模拟,对多桩型复合地基的动力特性进行研究,探讨桩型配比、桩径、桩长、CFG桩桩体刚度和碎石桩桩体渗透性等设计参数对多桩型复合地基动力特性的影响。研究结果表明:相同条件下地震期多桩型复合地基的动变形小于碎石桩复合地基而大于CFG桩复合地基,震后沉降量相对较小,在工程设计时碎石桩与CFG桩的桩型配比宜为4∶5;随桩体长度、桩体直径和CFG桩刚度的增加,多桩型复合地基地震期的竖向动变形逐渐减小;随碎石桩桩体渗透性的增加,多桩型复合地基中的超动孔隙水压力减小,震后沉降量降低。 相似文献
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通过分别开展包裹碎石桩加固、碎石桩加固以及未加固的饱和砂土液化振动台试验,对比分析不同加固类型下的抗液化性能,重点剖析包裹碎石桩加固的砂土液化机理。试验表明:振动加载过程中,包裹碎石桩始终保持桩体的完整性与良好的排水性能且其加固模型地基的总沉降量相较于未加固模型地基减少了50%,相较于碎石桩加固模型地基减少了31.8%。包裹碎石桩加固模型排出水量较未加固模型地基提高了33.3%,较碎石桩加固模型地基提高了16.6%;包裹碎石桩加固模型地基的超静孔压值下降显著且地基下层砂土出现未液化的现象;并进一步发现包裹碎石桩的排水加固作用沿土层竖向深度呈递增趋势。因此,可以发现包裹碎石桩加固砂土液化的抗震性能优于碎石桩。 相似文献
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本文在考虑碎石桩排水和应力集中作用的基础上分析了碎石桩处理液化地基后复合地基的抗液化能力,并与自由场液化地基的抗液化能力进行了对比,提出了一种适用于碎石桩复合地基修正“Seed简化法”,可应用标准贯入试验对液化地基的处理效果进行评价。 相似文献
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采用激振法和衰减测试对碎石桩复合地基块体振动响应进行现场试验,分析了该复合地基在不同激振方式下的振动反应规律,提出了碎石桩复合地基抗压、抗弯、抗剪刚度系数线性关系。同时通过试验对比,分析了自由振动与强迫振动两种测试方法对于碎石桩复合地基测试结果的适宜性,这对复合地基的理论研究及动力基础的天然地基的设计、试验和研究都具有实际意义。 相似文献
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单桩复合地基上块体振动特性分析 总被引:3,自引:0,他引:3
本文利用轴对称有限元-无限元耦合模型和现场试验,系统地分析了搅拌桩、碎石桩的长度、直径和波速及其桩身缺陷对单桩复合地基上圆形块体竖向振动速度导纳特性的影响,结果表明块体的低频速度导纳幅值比共振频率更能稳健地反映出复合地基的性状变化。本文研究对进一步完善复合地基动测理论与技术具有参考价值。 相似文献
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根据软土地基上修建城际快速铁路路基遇到的沉降控制问题,结合近年来相关城际快速铁路的软基加固试验研究和工程建设情况,简要介绍了几种适用于城际快速铁路软土地基沉降控制新技术,包括PCC桩复合地基技术、浆固碎石桩复合地基技术、现浇X形桩复合地基技术、桩板结构技术等,讨论了沉降控制的几个关键环节。 相似文献
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除饱和砂土液化外,饱和粉土地震液化问题也是岩土地震工程中一个重要的研究课题。饱和粉土地基的地震液化及变形可以采用多种地基加固方法防治,碎石桩技术是常用方法之一。碎石桩复合地基的抗液化效应,主要是增加桩周土体的密度、利于桩体的排水以及由桩体分担地震水平剪应力(桩体减震作用)。但由于粉土的土质特性,粉土-碎石桩复合地基的抗液化特性与砂土有着明显的差异。本文结合目前国内外碎石桩复合地基抗液化研究的最新进展,对粉土-碎石桩的密实、排水减压和减震作用做了较详细的评述,最后提出了关于碎石柱复合地基抗液化特性需要进一步研究的问题。 相似文献
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基桩动力检测的问题及改进方向 总被引:1,自引:0,他引:1
黄勇 《地震工程与工程振动》2007,27(5):146-150
有关桩质量及承载能力的动力检测方法很多,各有特色,很多文献有详细介绍,一些方法还列入有关规程或规范中。实际上,桩基是隐蔽工程,桩质量受施工技术的影响可能出现多样性的缺陷;桩承载能力的动力分析又必须依据规范规定的静载试验结果来校核、修正。因此,动力试验方法的准确性受多种因素的影响。本文依据实践工作中的体会和认识,明确指出现有的主要动力检测方法在判别桩可能存在的缺陷性质、位置、程度方面各自存在的局限性,以及在判断桩承载力的试测方式和分析方法上存在的问题,并就噪声干扰及桩动静试验可比性等问题提出一些改进的思路及设想。 相似文献
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PresentsituationoftheresearchandapplicationofengineeringmultiwaveseismicprospectinginChinaXIAO-PINGWU(吴小平),HONG-RUZHAO(赵鸿儒)(D... 相似文献
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This paper presents an investigation of the nonlinear behaviour of single piles subjected to varying levels of vertical dynamic load. A good number of tests are performed for the understanding of the dynamic behaviour of single hollow steel piles embedded in layered soil. Experimental results are validated with results obtained from a nonlinear numerical analysis using commercially available Finite Element Method (FEM) based software. The results of numerical analysis and experimental investigations showed that the length of pile has significant influence on resonant frequency and amplitude of the pile foundation. It has also been found that the slippage of pile from the surrounding soil considerably affects the resonance frequency and amplitude of the soil–pile foundation system. 相似文献
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The elastodynamic response of coupled soil-pile-structure systems to seismic loading is studied using rigorous three-dimentional (3D) finite element models. The system under investigation comprises of a single pile supporting a single degree of freedom (SDOF) structure founded on a homogeneous viscoelastic soil layer over rigid rock. Parametric analyses are carried out in the frequency domain, focusing on the dynamic characteristics of the structure, as affected by typical foundation properties such as pile slenderness and soil-pile relative stiffness. Numerical results demonstrate the strong influence on effective natural SSI period of the foundation properties and the crucial importance of cross swaying-rocking stiffness of the pile. Furthermore, the notion of a pseudo-natural SSI frequency is introduced, as the frequency where pile-head motion is minimized with respect to free field surface motion. Dynamic pile bending is examined and the relative contributions of kinematic and inertial interaction, as affected by the frequency content of input motion, are elucidated. 相似文献
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Experimental investigation on seismic behavior of scoured bridge pier with pile foundation 
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下载免费PDF全文 This study investigated the seismic performance and soil‐structure interaction of a scoured bridge models with pile foundation by shaking table tests using a biaxial laminar shear box. The bridge pier model with pile foundation comprised a lumped mass representing the superstructure, a steel pier, and a footing supported by a single aluminum pile within dry silica sand. End of the pile was fixed at the bottom of the shear box to simulate the scenario that the pile was embedded in a firm stratum of rock. The bridge pier model was subjected to one‐directional shakes, including white noise and earthquake records. The performance of the bridge pier model with pile foundation was discussed for different scoured conditions. It is found that the moment demand of pile increases with the increase of scoured depth whereas the moment demand of the bridge pier decreases, and this transition may induce the bridge failure mechanism transform from pier to pile. The seismic demand on scoured pile foundations may be underestimated and misinterpreted to a certain degree. When evaluating the system damping ratio with SSI, the system response may not be significantly changed even if the soil viscous damping contribution is varied. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
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To evaluate the overall response of a structural system including its foundation and surrounding soil, an equivalent finite element model with reduced degrees of freedom using fibre theory‐based beam element was proposed. The proposed model was based on investigations of the subgrade soil reaction of a single‐layer model, and was verified for the cyclic behaviour of a laterally loaded single RC pile in terms of the load–displacement relationship, pile deformation, and soil pressures on the pile surface. Also investigated was the effect of the interfacial element between pile and soil on the behaviour of the laterally loaded pile. Copyright © 2006 John Wiley & Sons, Ltd. 相似文献
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高应变法检测是基桩检测技术的一种重要手段,但是该方法检测承载力存在误差,因此受到许多争议。本文以广东惠州地区两项工程的检测实践为例,分别采用前后两组不同拟合参数,对检测数据进行了承载力拟合计算,分别得出了前后两种不同的计算结果。并通过动、静两种方法的对比检测,分析了高应变法检测承载力误差产生的主要原因,粗略探讨了对高应变法检测的一些认识。 相似文献
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单桩静载荷试验极限承载力的预测 总被引:5,自引:0,他引:5
桩基承载力对桩基抗震性能有很大影响。介绍了一种单桩静载荷试验极限承载力的预测法——多项式回归法。在静载荷试验中,由于种种原因终止荷载未达到极限荷载时,可用上述方法进行推测。同时通过实例对比说明,这种方法对于静载荷试验具有一定的经济效益。 相似文献
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This paper presents the results of in situ measurements during dynamic pile testing at a construction site in Louvain-la-Neuve. Main objectives are the investigation of the pile response and the free field vibrations due to low strain dynamic loading on a single cast in situ pile with a 5.5 kg hammer impact on the pile head. Whereas low strain testing is usually performed to assess the integrity of the pile as a structural member, this study focuses on both pile and ground vibrations. The pile head response and ground motions are measured with accelerometers during different blows with the impact hammer. The dynamic characteristics of the soil are determined with a SASW test. Experimental results are compared with predictions obtained with a coupled finite element–boundary element model. The computed pile head and free field response show a good correspondence with the measured response. In addition, the static stiffness of the pile estimated by means of the mobility function shows a very good agreement with the value calculated by an analytical formulation. 相似文献