土-结构动力相互作用的振动台试验研究综述   总被引：1，自引：1，他引：0  

李振宝  李晓亮  唐贞云  纪金豹 《震灾防御技术》2010,5(4):439-450

本文从土-结构动力相互作用振动台试验过程中所涉及的结构模型动力相似设计、模型土体的模拟及土体边界条件的模拟三个方面,回顾了近几年来土-结构动力相互作用振动台试验研究的发展历程与现状,重点描述了试验过程中为了更好地反映震动条件下土与结构动力相互作用的机理,学者们所采取的办法和措施。并在此基础上,介绍了一种新的研究土-结构动力相互作用的振动台试验技术。最后,总结了传统的土箱-振动台试验存在的不足,并与这种新的试验技术进行了对比,提出了对于这种新的试验方法仍需要进一步研究和解决的问题。  相似文献   

土、结构特性对饱和土-地下综合管廊动力相互作用影响分析          下载免费PDF全文

蒋录珍  李双飞  孙轶良  陈艳华 《地震工程学报》2019,41(5):1316-1323

将土体视为固-液两相介质,基于饱和土体有效应力原理,建立饱和土体-地下综合管廊结构体系相互作用动力模型：在地应力平衡的静力状态下,采用Duncan-Chang非线性弹性本构模型,在地震波作用的动力状态下,采用Davidenkov非线性黏弹性本构模型;考虑饱和土体黏弹性动力人工边界条件,并将地震动作用转化为作用在人工边界节点上的动力荷载。模型考察不同土体材料、结构特性以及土-结构接触摩擦对结构地震响应的影响,得出如下结论：（1）地震波的卓越周期与场地卓越周期相近时,引起结构上的变形最大;（2）综合管廊结构管廊壁厚越薄,埋深越深,结构尺寸越大,结构刚度越小,结构变形越大;（3）不考虑土-结构接触面的状态非线性将会增大结构变形。  相似文献   

桩-土相互作用弹簧对倾斜液化场地-群桩-上部结构体系的影响     

王知扬  贾科敏  许成顺  杜修力 《地震科学进展》2024,(2):125-134

桩-土-上部结构体系的动力相互作用是一个复杂的过程,尤其是在倾斜液化侧向扩展流动（侧扩流）场地中,由于地震过程中场地产生地面永久大变形,桩土间有可能产生错动滑移与开裂等非线性反应,因此桩-土相互作用模拟至关重要。为了探究桩-土非线性接触对倾斜液化场地-群桩基础-上部结构体系动力响应的影响,本文基于OpenSees分别建立了考虑桩-土相互作用弹簧和桩土结点之间直接绑定的有限元数值模型。结果表明：考虑桩-土相互作用Pyliq弹簧时,土体加速度幅值略微降低,桩基对土体的约束明显变弱,土体残余位移增大。同时,具有Pyliq弹簧的模型能较好地模拟桩的曲率响应,而采用桩土结点直接绑定的模型高估了桩顶曲率,进而无法准确估计桩基抗弯最不利位置。桩-土相互作用弹簧对上部结构动力响应的影响较小。  相似文献   

悬吊环式土-结构动态接触试验装置系统的研制及验证     

李立云  张盛夏  王晓琼 《地震工程与工程振动》2013,33(4)

为了更进一步研究土与结构相互作用中界面的动态接触特性,在DYS-200-1-05电动振动系统基础上研制了一种悬吊环式试验装置系统.该装置系统具有如下功能特点:(1)可以分析加载频率、加载速率对土与结构接触特性的影响界面;(2)法向为常应力控制,切向可实现不同频率加载;(3)考虑了剪切外力作用过程中土体的剪切变形特性,故可以研究试验过程中土-结构系统破坏与土体自身变形破坏的关系.试验结果表明,本试验装置系统的性能可靠,为后面系统研究土-结构界面动态接触性能奠定了基础.  相似文献   

土钉支护抗震性能的振动台试验研究     

张明聚  吕琦  杜修力  李立云 《地震学刊》2010,(6):691-697

为研究土钉支护结构体系的抗震性能,设计并完成了土钉支护边坡1：12比尺的振动台试验,研究了土钉支护边坡的动力反应特征和规律。结果表明：土钉支护边坡坡面的最大变形主要发生在边坡坡腹处,坡顶与坡趾的变形相对较小;增大土钉倾角会增大边坡的侧向位移,增加土钉长度以及减小土钉间距则会减小边坡侧向位移;土钉支护最大作用带基本位于土钉支护区的中前部,呈折线形,与计算假设的圆弧形不同,而且该作用带与滑裂面的位置并不相同;边坡土体中部和下部的加速度放大系数较小而且比较接近,边坡上部土体的加速度放大系数则较大。  相似文献   

基于土与高层建筑群相互作用振动台试验的土体动力非线性模拟     

《世界地震工程》2017,(2)

在动力荷载作用下,土与建筑群的动力相互作用中,土体表现出明显的动力非线性。同时振动台实测值与计算值对比分析中,土体的模拟至关重要。本文基于土与高层建筑群动力相互作用的振动台试验实测数据,应用Davidenkov地基模型实现土体动力非线性模拟。首先由土体的实测材料值拟合出Davidenkov地基模型内的相应参数值,然后用ANSYS编制计算程序,建立土与高层建筑群动力相互作用振动台试验的有限元模型,最后将计算值与试验值进行对比分析,验证Davidenkov地基模型用于此振动台试验的准确性。  相似文献   

液化土中桩基础动力反应试验研究   总被引：3，自引：0，他引：3  

李雨润  袁晓铭  曹振中 《地震工程与工程振动》2006,26(3):257-260

本文设计完成了包括三种密度饱和砂土和非液化干砂的多工况桩-土相互作用振动台动力试验,研究液化对土体和桩-承台动力反应的影响。通过试验和分析,得到了液化和非液化土层中土体水平加速度、侧向位移和桩-承台的水平加速度、侧向位移、桩身弯矩等指标的反应过程和模式,对比了液化和非液化条件对这些指标的影响方式,提出了各因素影响大小的分析结果。  相似文献   

二相介质饱和土中群桩动力阻抗分析   总被引：4，自引：0，他引：4  

张玉红  黄义 《地震工程与工程振动》2001,21(3):113-116

用流体饱和多孔介质材料描述土体，由饱和土和群桩及承台系统的位移协调条件和力平衡条件建立饱和土和群桩及承台系统动力相互作用的控制方程，分析饱和土中群桩动力阻抗。结果表明：孔隙流体对饱和土中桩基础动力阻抗有一定的影响；在饱和土具有不同的流体渗透系数时，饱和土中群桩动力阻抗也有一定差别。在地基上与基础结构动力相互作用研究中应该考虑地基土中孔隙流体的影响。  相似文献   

土-结构动力相互作用研究综述   总被引：5，自引：0，他引：5  

方志  陆浩亮  王龙 《世界地震工程》2006,22(1):57-63

土与结构动力相互作用是当代力学领域的前沿性研究课题,具有很强的实践性。对土与结构动力相互作用的研究历史与现状进行了介绍,简要综述了当前土与结构动力相互作用的研究方法,重点介绍了目前关于土与结构动力相互作用问题中从无限域转化成有限域的人工边界研究进展问题,并对该领域今后的研究工作提出了建议。  相似文献   

风荷载作用下的土-结构动力特性分析     

宿金成  王幼清 《地震学刊》2014,(1):28-33

结构的动力特性直接影响到动力荷载的作用效应。动力特性分析中,土体的影响不可忽视。与地震荷载不同,动风荷载自结构向土体传播,土体的惯性力可以忽略。无质量地基法可以满足针对风荷载的土-结构动力分析的要求。本文首先推导土-结构动力相互作用的运动方程,在此基础上,以剪力墙箱型基础结构为基本分析对象,确定有限地基域的范围,分析土-结构整体动力特性。认为：足够的基础埋深,可以有效控制建筑物的摆动;为控制建筑物的动力特性,可以采取措施适当使地基土增加一定的刚度;如何在上部结构的质量和刚度之间建立对应关系以控制土-结构系统的动力特性,有待进一步研究。  相似文献   

中国软土及其动力学特性研究的概况          下载免费PDF全文

乔峰  薄景山    王亮  常晁瑜    张兆鹏  齐文浩 《世界地震工程》2019,35(4):150-161

软土由于具有强度低、渗透性小、压缩性高、欠固结以及流变效应等不利于工程建设的特性,通常不被选做天然地基。但当软土以建筑环境或地基夹层存在时,对工程会带来一定的危害。在动力的作用下,软土表现特殊的力学行为,在地震作用有时会产生震陷;位于表层的软土放大效果显著;位于底层的软土有时具有隔震的作用。由于软土在动力学实验方面存在一定的困难,并且缺少软土场地的强震记录,使得这方面的研究受到一定影响。简要介绍了软土的成因及工程特性;总结和归纳了国内外软土的动剪切模量比和阻尼比以及剪切波速等动力学参数的特征,评述了软土动本构关系和地震反应特性等方面的研究进展,在此基础上提出了目前需要进一步开展研究的问题。该项工作对从事软土研究的科技工作者有一定的参考价值。  相似文献   

软土动力特性动三轴试验研究   总被引：9，自引：4，他引：5       下载免费PDF全文

田兆阳  李平  郑志华  肖瑞杰 《地震工程学报》2017,39(1):95-99,118

许多学者对软土在动力作用下的变形特性进行了大量的研究,并提出了相应的经验公式,但其经验公式参数较多且试验复杂,不易被一般工程技术人员掌握运用。本文采用天津滨海地区软土为研究对象,进行钻探取样、波速测试、室内静力学和动三轴试验,获取该地区软土的静、动力学参数,并利用相对简单的模型对残余应变和软化指数随振次的变化规律采用最小二乘法进行拟合,取得很好的效果。成果表明,利用简单的模型对软土的动力特性进行区域性研究是可行的。该成果可为今后软土动力特性和软土震陷计算方法研究提供参考和基础性资料。  相似文献   

Performance of a transparent Flexible Shear Beam container for geotechnical centrifuge modeling of dynamic problems     

《Soil Dynamics and Earthquake Engineering》2013

A transparent Flexible Shear Beam (FSB) container was designed and constructed to simulate the dynamic response of a stratum of soil under horizontal, one-dimensional (1-D) earthquake shaking in a geotechnical centrifuge. A stack of four rectangular, acrylic frames separated by layers of flexible, high-strength rubber was used to form the transparent container. The fundamental natural frequency of the container was estimated to be similar to a layer of sand in its softened or liquefied state. The suitability of the container in simulating 1-D site response with minimal boundary effects was evaluated by monitoring the uniformity of the induced accelerations and settlements across the soil specimen. Further, the measured lateral displacements were compared with equivalent-linear site response analyses. The new FSB container was found to provide satisfactory boundary conditions for studying complex Soil–Structure-Interaction problems, while simultaneously enabling researchers to visualize deformations of the soil and buried structures during shaking.  相似文献   

Performance of an equivalent shear beam (ESB) model container for dynamic geotechnical centrifuge tests     

《Soil Dynamics and Earthquake Engineering》2013

In dynamic centrifuge tests, appropriate boundary conditions are required in order to simulate the seismic semi-infinite soil layer responses within the confines of a finite size model container. An ESB (equivalent shear beam) model container first designed at the University of Cambridge was built with a stack of light-weight aluminum frames separated by rubber to experimentally achieve this goal. In this paper, a significant number of dynamic centrifuge tests and the corresponding seismic response analyses were performed to evaluate the dynamic performance of a newly constructed ESB model container and to shed light on the range of testable soil conditions. In the set of conducted tests, it appears that the end walls of the ESB model container behave in accordance with the dynamic response of the soil deposit, despite a difference in the natural period depending on the relative density of the sand deposit. This is attributed to the differences in mass and stiffness of the end walls compared to those of the contained soil model. For partially filled model container, significant differences in seismic responses are observed in the end walls and in the soil deposit due to seismic interaction caused by the upper unfilled frames of the container. These findings suggest that dynamic model tests using this ESB model container should be conducted with the container completely filled. In addition, on the basis of a comparison with the seismic soil behavior inside a rigid-walled model container, it is clear that the ESB model container can provide a more representative lateral boundary configuration for dynamic site response studies.  相似文献   

结构-地基动力相互作用体系振动台模型试验研究   总被引：81，自引：20，他引：61  

吕西林  陈跃庆  陈波  黄炜  赵凌 《地震工程与工程振动》2000,20(4):20-29

本文设计实现了结构－地基动力相互作用体系的振动台试验,通过试验研究了动力相互作用体系的地震动反应的主要规律,由于动力相互作用的影响,软土地基中相互作用体系的频率远小于刚性地基上不考虑结构－地基相互作用的结构频率,而阻尼比例则远大于结构材料阻尼比,软上地基对地震动走滤波和隔震作用,由于上部结构的振动反馈,基底地震动与自由场地震动不相同,上部结构柱顶加速度反应主要由基础转动引起的摆动分量组成,平均分量次之,而弹性变形分量很小,桩身应变幅值呈桩顶大,桩尖小的倒三角形分布,桩上接触压力幅值呈桩顶小,桩尖大的三角形分布,试验表明,结构－地基动力相互作用对体系地震反应的影响是很是显著的,本试验为验证理论与计算分析的研究成果,改进或提出合理的计算模型和分析方法,提出了丰富的试验数据,为进一步研究奠定的基础。  相似文献   

应变控制下深层黏土动弹性模量与阻尼比试验研究          下载免费PDF全文

杨立功  张宇亭  王欢 《地震工程学报》2020,42(1):199-204

为研究天津滨海新区深层黏土动力特性,借助GDS动三轴仪器对应变控制条件下天津滨海新区深层黏土的动弹性模量及阻尼比的变化规律进行研究。每组试验中将相应深度土体上覆土层压力作为试验围压,其间只改变控制应变进行循环三轴试验。试验结果表明,土体动弹性模量、阻尼比受围压影响有一个限值,超过这个限值(约3倍参考围压),围压对土体动弹性模量、阻尼比影响很小,但土体动应变对其影响较大。  相似文献   

Seismic response of earth dams: some recent developments     

《Soil Dynamics and Earthquake Engineering》1987,6(1):2-47

The paper focuses on theoretical methods for estimating the dynamic response of earth dams to earthquake ground excitation. Following an outline of the historical developments in this field, the basic concepts/models for response analysis are introduced and their salient features, advantages and limitations are elucidated. The major phenomena associated with, and factors influencing, the response are identified and studied. Particular emphasis is accorded to inhomogeneity due to dependence of soil stiffness on confining pressure, nonrectangular canyon geometry, and nonlinear-inelastic soil behaviour. Several new formulations that have evolved over the last five years are outlined and characteristic results provide considerable insight into the problem. The simplicity of some of these formulations is underlined and attempts are made to compare their predictions with measurements from full-scale, natural and man-made, forced vibration tests. The basic validity as well as the limitations of the proposed analysis methods is demonstrated and topics of needed further research are suggested.  相似文献   

Dynamic response of a near-shore pile to lateral impact load     

《Soil Dynamics and Earthquake Engineering》2012

This paper presents the results of lateral impact load field tests conducted on a near-shore steel pipe pile vibro-driven into soft marine clay. Two series of tests are carried out, the first 1 week and the second 10 weeks after the vibro-driving. The pile is instrumented with an unconventional technique for field tests in marine environment which includes an accelerometer at the pile head, strain gauges and pore pressure transducers along the pile. Instruments are properly protected from marine environment and pile driving installation method. Tests are aimed at investigating the dynamic soil-water-pile interaction and determining the dynamic characteristics of the whole system at very small strain. The obtained results show the complex dynamic behaviour of the vibrating soil-water-pile system in terms of natural frequencies, damping and mode shapes. The variation in the dynamic behaviour in time, due to reconsolidation of soil subsequent to vibro-driving is also discussed. Furthermore, the horizontal dynamic impedance function of the whole system is derived from the experimental data over a wide frequency range and compared with that obtained from a numerical soil–pile interaction model.  相似文献   

固结时间对软土动力特性影响的试验研究     

兰景岩  王延伟  曹振中  刘娟 《震灾防御技术》2019,14(4):742-749

固结试验是研究软土动力特性的重要环节,固结时间是影响软土动力特征参数的重要因素。围绕岩土工程及科研工作中对动三轴试验中固结时间影响规律的认识较为模糊的问题,拟对天津滨海软土开展动三轴平行试验,分别采用8h、12h、24h、48h进行固结,针对软土的最大动剪切模量G_max、最大阻尼比λ_max及动剪切模量比G_d/G_max和阻尼比λ随动剪切应变γ_d的变化规律,分析固结时间对软土动力特性参数的影响。试验结果表明:G_max、λ_max、G_d/G_max-γ_d曲线、λ-γ_d曲线受固结时间的影响较为显著。G_d/G_max-γ_d曲线随着固结时间的增加而减小。阻尼比试验结果表明动剪切应变存在明显的分界点,分界点以下,中长期固结时间所得阻尼比较大,而分界点以上,短期固结时间所得阻尼比较大。  相似文献   

Centrifugal modelling of dynamic soil-structure interaction     

Karen Weissman  Jean H. Prevost 《地震工程与结构动力学》1989,18(8):1145-1161

This paper presents a centrifuge model that is capable of realistically representing soil-structure systems subjected to earthquake-like excitation. The model is validated by performing (i) free field soil tests, (ii) dynamic soil-structure interaction tests and (iii) a numerical analysis of the experimental results. The free field experiments show that the simulated earthquake, which is generated by the hammer-exciter plate method, is similar in amplitude and frequency content to a real earthquake. The experiments also demonstrate that a confined soil sample can satisfactorily model a horizontal soil stratum of infinite lateral extent when the containment walls are lined with an absorptive material to attenuate wave reflections that would otherwise occur. Measurements of the acceleration at different locations on the free soil surface indicate that the surface motion is fairly uniform over a relatively large area. This is further confirmed by a comparison made between the measured free and scattered field motions for a surface foundation. Next, a series of soil-structure interaction tests are performed which examine the dependence of radiation damping on the natural frequencies of the structure relative to the fundamental frequency of the soil stratum. The experimental results are shown to be consistent with established theories. Finally, the experimental results are used to compute the stiffness and damping parameters of a two degree of freedom numerical model of the soil-structure system. The experimental parameters are shown to be in good agreement with calssical text book formulae. This study demonstrates that the centrifuge model consistently behaves as expected for simple, but realistic, dynamic soil and soil-structure systems, and can, therefore, be used with confidence to examine more complicated systems that are not yet fully understood.  相似文献