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1.
针对浅层软土中埋设的矩形截面地下综合管廊进行了非一致地震激励下的振动台模型试验研究。作为首个此种类型结构非一致激励的振动台试验工作,本文主要介绍试验方法,重点包括试验方案设计、开洞试验模型箱与模型结构设计,根据试验的特殊要求而开发的土体滑移传感器和地下结构接头位移测量装置,以及人工合成输入地震波动时程的方法与步骤。上述试验设计方法可供今后类似试验工作参考。试验结果分析及数值模型验证结果将在后续系列论文中介绍。 相似文献
2.
本文以纵向非一致地震激励试验为主,对地下综合管廊振动台模型试验结果进行了分析,包括模型场地的加速度响应、结构的应变响应、结构和场地加速度响应关系、结构应变响应的原因、结构接头位移响应、结构在纵向非一致激励和一致激励下应变响应的区别。结果分析表明,本试验模型场地及模型结构设计合理,从中得到了关于地下综合管廊非一致地震激励作用下响应规律的一些新内容。 相似文献
3.
Seismic response of underground utility tunnels: shaking table testing and FEM analysis 总被引:2,自引:1,他引:1
Underground utility tunnels are widely used in urban areas throughout the world for lifeline networks due to their easy maintenance
and environmental protection capabilities. However, knowledge about their seismic performance is still quite limited and seismic
design procedures are not included in current design codes. This paper describes a series of shaking table tests the authors
performed on a scaled utility tunnel model to explore its performance under earthquake excitation. Details of the experimental
setup are first presented focusing on aspects such as the design of the soil container, scaled structural model, sensor array
arrangement and test procedure. The main observations from the test program, including structural response, soil response,
soil-structure interaction and earth pressure, are summarized and discussed. Further, a finite element model (FEM) of the
test utility tunnel is established where the nonlinear soil properties are modeled by the Drucker-Prager constitutive model;
the master-slave surface mechanism is employed to simulate the soil-structure dynamic interaction; and the confining effect
of the laminar shear box to soil is considered by proper boundary modeling. The results from the numerical model are compared
with experiment measurements in terms of displacement, acceleration and amplification factor of the structural model and the
soil. The comparison shows that the numerical results match the experimental measurements quite well. The validated numerical
model can be adopted for further analysis. 相似文献
4.
鉴于超长混凝土框架结构行波效应规律尚缺乏系统研究,借助建筑结构通用有限元软件MI-DAS/GEN,采用一致与非一致两种激励方式对165~1100m/s地震波速作用下长度为33~264m的3层钢筋混凝土框架结构进行弹性时程分析。通过对比一致与非一致激励下的梁弯矩、剪力和轴力,详细讨论了其随波速、长度以及不同部位的变化规律。研究表明:波速越慢,模型越长,行波效应越明显。框架梁弯矩的增大作用主要集中在264m模型第1层两端,减小作用表现在各模型第1层中部和第2、3层的梁上;剪力与弯矩有相似的变化规律;梁中存在拉力与压力,中部各梁的拉力和压力较两端的梁要大。 相似文献
5.
针对隧道的抗震安全性,借助有限元软件平台对其地震时程响应进行非线性有限元分析。利用弹性模型考虑混凝土隧道在循环荷载作用下的拉、压应力-应变关系,同时对土体采用MohrCoulomb模型,选用人工边界作为边界条件,以人工合成的多点地震加速度时程作为地震动输入,分别考虑一致输入、行波效应、相干效应及行波加相干效应对隧道的影响。分析结果表明,与一致激励的计算结果相比,非一致地震激励会显著增加隧道结构的内力和位移响应,从而对隧道抗震产生不利影响。研究结论可为长隧道结构的抗震设计和分析提供科学依据。 相似文献
6.
Design and commissioning of a laminar soil container for use on small shaking tables 总被引:2,自引:0,他引:2
This paper describes the design, fabrication and commissioning of a single axis laminar shear box for use in seismic soil–structure interaction studies. A laminar shear box is a flexible container that can be placed on a shaking table to simulate vertical shear-wave propagation during earthquakes through a soil layer of finite thickness. The laminar shear box described in this paper was designed to overcome the base shear limitations of a small shaking table at The University of Western Ontario. The design details of the box are provided in addition to results of dynamic tests performed to commission the box. A synthetic clay comprising sodium bentonite mixed with diluted glycerin was used as the model soil and 1-G similitude theory was employed to maintain model to prototype similarity. The model soil was compacted into the container in lifts to achieve soil stiffness that increased with depth. A series of shaking table tests and numerical analyses that were performed to study the performance of the laminar box and non-linear seismic behavior of the model clay are described. The results of this study show that the laminar box does not impose significant boundary effects and is able to maintain 1-D soil column behavior. In addition, the dynamic behavior of the model clay during scaled model tests was found to be consistent with the behavior measured during cyclic laboratory tests. 相似文献
7.
以一座典型山区非规则梁桥为研究对象,建立了该桥梁多维多点激励下的多自由度动力计算模型,研究了该桥梁在多维多点激励下考虑支座摩擦滑移及结构碰撞等非线性因素时的抗震性能。研究结果表明:相比一维地震输入,多维地震可使结构的动力响应增加,桥墩底部弯矩需求增大;相比一致激励,多点激励可使得支座的位移需求增大,且地震波最后到达的桥墩上方支座位移最大;同时考虑多点激励和碰撞效应可使桥墩的弯矩需求增加;水平地震作用下,矮墩上部的支座容易滑动,且双向地震较单向地震更明显,三向地震输入较双向有所增强。因此,对山区非规则梁桥进行抗震设计时应有针对性地进行多维多点地震输入计算,找出结构的最大地震需求,以期指导设计。 相似文献
8.
地下综合管廊结构振动台模型试验与有限元分析研究 总被引:2,自引:0,他引:2
在地下结构的振动台试验中,模型箱的设计是影响试验精度的一个很重要方面,本文的试验中采用了层状剪切砂箱,以最大限度地减小模型箱边界效应.而如何在数值计算中对层状剪切砂箱进行模拟成为数值分析要解决的关键问题.本文就是以此为背景展开了探讨,提出用变刚度的方法来近似模拟层状剪切砂箱,通过数值模拟结果与试验结果的对比发现,效果较好.在自由场计算的基础上,对综合管廊结构的振动台试验进行了数值模拟,计算结果与试验结果对比较好,说明本文建模计算方法是正确的,为后续的研究提供了基础. 相似文献
9.
基于多自由度空间结构体系地震响应分析的基本理论,利用ANSYS建立空间有限元模型,采用动力时程分析法分析某大跨度连续钢桁架柔性拱桥在一致和非一致激励作用不同地震工况下的空间地震响应。研究结果表明:非一致激励作用下,拱肋轴力、主桁弯矩峰值出现在拱脚和边墩附近;地震波组合输入较其单向输入拱脚轴力和面内弯矩最大分别可达1.28和8.32倍;非一致输入较一致激励作用拱脚轴力和面内弯矩分别可达2.5和8.4倍;地震波横向输入较纵向输入横向位移峰值比可达2.4倍,纵向输入较横向输入纵向位移峰值比可达2.6倍;结构的支座形式对结构构件地震响应结果也有一定影响;建议大跨度钢桁拱桥抗震设计应充分考虑地震波的空间和时间效应。 相似文献
10.
地震作用下大型储液罐的安全问题日益引起重视。基于ANSYS软件建立储罐液体耦合有限元模型,考虑罐底非线性接触效应,以El-Centro南北向和竖直向记录地震波为输入,研究水平激励以及水平和竖向同时激励两种工况下储罐的动力响应。研究结果表明,两种工况下靠近罐底1.2m处均发生了"象足"变形,竖向激励下水平相对位移增加了14%。竖向激励使得罐壁环向应力和轴向压应力均有不同程度的增加。竖向地震激励对液面的竖向晃动影响较小。储液罐底板在地震作用下发生了竖向提离和永久滑移,竖向激励时增长幅度均在10%左右。同时罐体基底剪力在竖向地震作用下也有所增大。储罐抗震设计时应考虑竖向地震分量的影响,研究结论可为立式储罐的抗震设计提供一定的参考和依据。 相似文献
11.
为了应对中国在新时期提出的“经济,适用,绿色,美观”的建筑政策,装配式结构逐渐成为近年来关注的焦点.对比传统现浇结构,装配式结构更符合节能、节材、环保等要求.因此,进一步研究装配式结构的抗震性能是非常重要的.考虑现有装配式剪力墙结构节点连接部位存在湿作业、施工难度大,常常出现强构件弱节点,抗震性能有待进一步深入研究等情况.为此我们提出一种新的结构形式———预应力约束下装配式剪力墙结构,该结构通过预应力筋连接结构的墙、板,使结构形成一个整体,减少施工现场湿作业,施工质量得以提高.当地震发生时结构通过改变自身的刚度,使其自震周期增大,达到减小地震应力的目的,同时很多提高延性因素的条件也无需考虑,避免钢材的浪费.通过对现浇剪力墙结构模型和预应力约束下装配式剪力墙结构模型进行时程分析,计算结果表明:与现浇剪力墙结构相比,预应力约束下装配式剪力墙结构可减小90%的地震作用,减震效果显著. 相似文献
12.
土-地铁隧道动力相互作用的大型振动台试验——试验结果分析 总被引:10,自引:3,他引:10
在进行土-地铁隧道动力相互作用的大型振动台模型试验中,分别测出了模型地基的加速度反应、隧道结构的加速度反应、结构的侧向土压力反应和隧道结构的应变反应。本文首先对模型体系的加速度反应实测值进行整理,分析了模型地基的边界模拟效果、模型地基和隧道结构的加速度反应规律。其次,对模型隧道结构的应变实测结果进行了分析,给出了地铁区间隧道在水平向地震动作用下横截面的应变分布规律,分析了模型箱侧壁与地基土以及隧道结构与土体接触面上的动土压力实测结果及其反应的规律。最后,对试验中模型土的液化现象、地震裂缝和地下结构上浮等震害现象进行了描述。 相似文献
13.
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
14.
In this paper, the seismic response reduction performance of magnetorheological (MR) damper is experimentally investigated for a suspension bridge. First, the force–displacement and force–velocity curves under a range of excitation frequencies, amplitudes and currents are obtained by mechanical behavior test of the RD1097 type MR damper. Then a new non-linear hysteretic model is proposed to model the mechanical behavior of the MR damper and the model parameters are identified from test data. An experimental method, as well as a set of testing setups with the MR damper for longitudinal seismic response reduction of a SDOF generalized system representing the fundamental longitudinal mode of suspension bridge, is developed. Finally, the seismic response reduction experiment subject to three kinds of earthquake excitations, including the Pingsheng Bridge earthquake wave, the El-Centro wave and the Taft wave, is carried out, and nine control cases, including uncontrolled, six passive control schemes with different input currents and two semi-active Bang–Bang control schemes, are tested. The results verify that the seismic response reduction experimental method is feasible and the good performance of seismic longitudinal response reduction of the suspension bridge can be achieved by MR damper. It is also shown that the passive control with optimum input current outperforms the semi-active Bang–Bang controls. 相似文献
15.
In this study, two different earthquake input models are introduced, i.e. massless foundation model and viscous-spring boundary input model considering radiation damping. Linear elastic and nonlinear contraction joint opening analyses of the 210 m high Dagangshan arch dam under construction in China are performed using the two different earthquake input models. First, the responses of the three-dimensional (3-D) canyon without the dam are analyzed, respectively, with massless-truncated foundation and with viscous-spring boundary; second, linear and nonlinear analyses of the dam–foundation system are performed and compared by using the two input models. Hydrodynamic effects are considered using finite element discretization for incompressible reservoir fluid. It is concluded that stresses and displacements and contraction joint opening in the dam are significantly reduced both in linear and nonlinear analyses when using viscous-spring boundary model. Interestingly, in the case of linear analysis of the Dagangshan, the massless foundation input model with a relatively higher damping ratio of 10% leads to a comparable response of the dam to that using viscous-spring boundary model. In addition, the maximum tensile stresses from nonlinear analysis are 10–25% larger than that of the corresponding linear cases due to a partial release of the arch action. 相似文献
16.
以实际工程为背景,在模型试验结果和数值模拟结果验证合理的基础上,通过建立三维数值模型,研究兰州人工波在不同激振方向下坡-隧体系动力响应规律,通过小波包变换从能量和频域角度对衬砌结构动力响应规律进行分析。研究结果表明:水平、竖直面内垂直隧道轴向(X、Z)的地震波在隧道最大埋深处引起较大响应,水平面平行于隧道轴向的地震波(Y)对埋深较浅的洞口处的结构最为不利。频率在0~12.5 Hz范围内的低频波是引起隧道结构响应的主要波段,该频段中竖直向地震波(Z)能量相较于其他方向地震波能量占比最高。地震作用中衬砌结构的存在对坡体内的围岩变形有一定的抑制效应。X、Y向地震波容易引起坡脚附近的围岩发生剪切破坏,Y向地震波对隧道洞口段仰坡的稳定性影响最大;Z向地震波容易造成坡顶附近区域围岩的拉伸破坏,且对隧道拱顶附近产生最不利响应。研究成果对浅埋偏压双联拱隧道的抗震优化设计具有借鉴意义。 相似文献
17.
Many laminar shear boxes have recently been developed into sliding-frame containers that can reproduce 1D ground-response boundary conditions. The measured responses of such large specimens can be utilized to back-calculate soil properties. This study investigates how the boundary effect in large specimens affects the identified soil properties through shaking table tests on a soil-filled large laminar box conducted at the National Center for Research on Earthquake Engineering in Taiwan. The tested soil-box system is unique because only 80% of the container is filled with soil. This system can be regarded as a two-layer system: an empty top and soil-filled bottom. The dynamic properties of this two-layer system are identified through various approaches, including theoretical solutions of wave propagation, free vibration, and nonparametric stress–strain analyzes. Therefore, the coupling effect of the box and soil can be evaluated. Results show that, compared with the two-layer system considering the influence of the box, the conventional approach with a single-layer system slightly underestimates shear wave velocity but obtains the same damping ratio of the soil layer. In addition, the identified modulus reduction and damping curves in the two-layer system are consistent with those obtained in a laboratory test on a small specimen. Furthermore, based on detailed acceleration measurements along different depths of soil, a piecewise profile of shear wave velocity is built. The identified shear wave velocity increases with depth, which is not uniform and differs from the constant velocity typically assumed for the specimen. 相似文献
18.
基于JC法的地下结构动力可靠性研究 总被引:1,自引:0,他引:1
基于JC法提出了地下结构的动力可靠性分析方法,建立地基土-地铁隧道非线性动力相互作用的有限元分析模型,将地基土-地铁隧道结构体系视为平面应变问题,采用Davidenkov动力本构模型和动塑性损伤模型,分别模拟土体和车站结构混凝土的动力特性,分析在地震动作用下地铁隧道结构的应力特性,进一步研究其动力可靠性,得到隧道结构的可靠度和可靠指标,以此评价地铁隧道结构的可靠性。结果表明:隧道结构上部右侧45°位置处的可靠性最低,下部右侧45°位置处的可靠性较低,这与隧道结构的拉应力反应的分析结果一致;基岩输入近断层地震动Northridge波和Chi-chi波时,由于地震波的脉冲效应,隧道结构的动力可靠性最低;总体而言,在0.1 g和0.2 g地震动作用下,隧道结构的可靠性足够,结构安全可靠。 相似文献
19.
Experimental study on the seismic response of braced reinforced concrete frame with irregular columns 总被引:2,自引:2,他引:0
A 15-storey K-braced reinforced concrete model frame with irregular columns, i.e., T-shaped, L-shaped, as well as +-shaped columns, was constructed and tested on the six-degree-of-freedom shaking table at the State Key Laboratory for Disaster Reduction in Civil Engineering in Tongji, China. Two types of earthquake records, El-Centro wave (south-north direction) and Shanghai artificial wave (SHAW) with various peak accelerations and principal-secondary sequences, were input and experimentally studied. Based on the shaking table tests and theoretical analysis, several observations can be made. The failure sequence of the model structure is brace→beam→column→joints, so that the design philosophy for several lines of defense has been achieved. Earthquake waves with different spectrums not only influence the magnitude and distribution of the earthquake force and the storey shear force, but also obviously affect the magnitude of the displacement response. The aftershock seismic response of previously damaged reinforced concrete braced frames with irregular columns possesses the equivalent elastic performance characteristic. Generally speaking, from the aspects of failure features and drift ratio, this type of reinforced concrete structure provides adequate earthquake resistance and can be promoted for use in China. 相似文献
20.
Behaviour of deep immersed tunnel under combined normal fault rupture deformation and subsequent seismic shaking 总被引:1,自引:0,他引:1
Ioannis Anastasopoulos Nikos Gerolymos Vasileios Drosos Takis Georgarakos Rallis Kourkoulis George Gazetas 《Bulletin of Earthquake Engineering》2008,6(2):213-239
Immersed tunnels are particularly sensitive to tensile and compressive deformations such as those imposed by a normal seismogenic
fault rupturing underneath, and those generated by the dynamic response due to seismic waves. The paper investigates the response
of a future 70 m deep immersed tunnel to the consecutive action of a major normal fault rupturing in an earthquake occurring
in the basement rock underneath the tunnel, and a subsequent strong excitation from a different large-magnitude seismic event
that may occur years later. Non-linear finite elements model the quasi-static fault rupture propagation through the thick
soil deposit overlying the bedrock and the ensuing interaction of the rupture with the immersed tunnel. It is shown that despite
imposed bedrock offset of 2 m, net tension or excessive compression between tunnel segments could be avoided with a suitable
design of the joint gaskets. Then, the already deformed (“injured”) structure is subjected to strong asynchronous seismic
shaking. The thick-walled tunnel is modelled as a 3-D massive flexural beam connected to the soil through properly-calibrated
nonlinear interaction springs and dashpots, the supports of which are subjected to the free-field acceleration time histories.
The latter, obtained with 1-D wave propagation analysis, are then modified to account for wave passage effects. The joints between tunnel segments are modeled with special non-linear hyper-elastic elements, properly accounting
for their 7-bar longitudinal hydrostatic pre-stressing. Sliding is captured with special gap elements. The effect of segment
length and joint properties is explored parametrically. A fascinating conclusion emerges in all analysed cases for the joints
between segments that were differentially deformed after the quasi-static fault rupture: upon subsequent very strong seismic
shaking, overstressed joints de-compress and understressed joints re-compress—a “healing” process that leads to a more uniform
deformation profile along the tunnel. This is particularly beneficial for the precariously de-compressed joint gaskets. Hence,
the safety of the immersed tunnel improves with “subsequent” strong seismic shaking! 相似文献