共查询到20条相似文献,搜索用时 843 毫秒
1.
模型土的设计是土与结构相互作用(SSI)振动台试验的重要组成部分。对当前振动台试验模型土的设计方法进行简要介绍,分析当前设计方法的不足。基于土体动应力-动应变关系的骨干曲线方程推导出控制原型土与模型土动力特性相似关系的指标,提出利用土体的剪切模量比 随剪应变 的变化关系曲线和参考应变 的相似比作为模型土设计的控制因素。开展模型土的动三轴试验,得到了模型土 - 关系曲线和 值,对模型土与原型土 - 关系和 值相似性进行了比较,并建议将曲线相关系数、曲线不均匀系数和曲线的曲率系数作为原型土和模型土 - 曲线相似度高低的评价指标。研究结论对于振动台试验中模型土的设计具有指导意义。 相似文献
2.
《岩土力学》2017,(4):1114-1120
有效模拟土一结构相互作用(SSI)和土体非线性特征是进行土质地基条件下核岛厂房结构地震响应分析的关键技术问题。基于SuperFLUSH软件平台,采用等效线性法描述近场地基非线性动力特征,通过在地基有限区域设置黏性人工边界来模拟半无限地基辐射阻尼效应的影响,并利用一维有限元法进行自由场响应分析实现地震动的输入,从而建立土质地基条件核岛厂房结构地震响应分析计算模型。最后,以某土质地基条件下的CPR1000堆型反应堆厂房的集中质量简化模型作为研究对象,开展考虑SSI效应和分层土质地基非线性对于核岛厂房结构地震响应特征影响研究,验证了该计算模型的精度和工程应用效果。研究表明:考虑SSI效应,可有效吸收散射波波动能量,减小结构响应;考虑土质地基非线性效应,加速度幅值在不同方向均有不同程度的降低,峰值频率明显的向低频偏移,因此,同时考虑SSI效应及土质地基的非线性特征,并将两者相结合的分析方法对核岛厂房结构抗震分析是必要的。 相似文献
3.
固化土和土工格栅护岸工法(SG-WALL工法)是一种采用固化土和土工格栅加固港口护岸结构的新型工法。它的抗震性能已经通过一系列振动台试验得到了确认。为了能够数值再现SG-WALL结构在地震荷载作用下的动力反应,对SG-WALL结构的振动台试验进行了动态数值模拟研究。试验和模拟结果的对比表明,数值模拟方法能够再现SG-WALL结构在振动荷载作用下的主要动力特征。模拟结果还表明:固化土的长度对SG-WALL抗震性能起到重要的影响;土工格栅的最大拉应变发生在与排桩的连接处,并且沿着远离排桩的方向逐渐减小。 相似文献
4.
通过全面考虑土-结构动力相互作用体系中上部结构阻尼、地基土黏滞材料阻尼以及地基基础平动与转动时的辐射阻尼,推导了土-结构相互作用体系的耦合阻尼比公式。结合国内外关于阻尼调整系数的研究成果,提出了基于加速度反应谱的阻尼影响因子概念,建立阻尼影响因子 与《规范》中地震影响系数 的关系式。通过耦合阻尼比公式以及提出的 与 的关系式,对土-结构相互作用体系地震作用加以研究。结果表明考虑土与上部结构的相互作用后能够增大体系的阻尼性能,并大大降低上部结构的地震作用,提高体系的整体抗震性能。其成果为未来抗震防灾研究与工程的抗震设计提供了理论依据。 相似文献
5.
通过模拟土的非线性动力本构模型,选取合理的人工边界及耦合阻尼模型,建立了刚性桩复合地基与上部结构相互作用体系三维有限元动力分析模型。通过计算,对比了刚性桩复合地基与普通桩基对上部结构地震反应的影响异同,同时得到了土体模量与分层、基础埋深、桩径与桩长、砂石垫层模量与厚度以及上部结构特性等因素在考虑土-结构动力相互作用时对刚性桩复合地基抗震性能的影响及其基本规律,并与已有相关试验结果进行了对比,得到较好验证。研究结果为工程设计与工程应用提供了可借鉴的理论依据。 相似文献
6.
结构-地基动力相互作用是结构地震响应分析及安全评估的一个非常重要课题。基于比例边界有限元法,提出了一种新颖的结构-地基动力相互作用的时域模型,即采用比例边界有限元子域模拟近场有限域部分,采用高阶透射边界模拟远场无限域部分。通过采用连分式展开和引入辅助变量,有限域的动力方程采用高阶的静力刚度矩阵和质量矩阵表示。高阶透射边界精确满足无限远处的辐射边界条件,具有全局精确、时间局部和收敛速度快等优点。它是基于改进的连分式法求解无限域动力刚度矩阵而建立的,在时域里表示为一阶常微分方程组。通过联立有限域和无限域的运动方程,建立了结构-地基相互作用的标准动力学方程,采用Newmark法可直接求解。3个算例结果表明,该算法在时域里比黏弹性边界更精确、有效。 相似文献
7.
液化场地桩-土-桥梁结构地震相互作用简化分析方法 总被引:2,自引:0,他引:2
液化场地桩-土-桥梁结构地震相互作用分析属于桩基桥梁抗震设计中的一个关键科学问题,而目前尚缺乏合理的简化分析方法。鉴于此,直接针对振动台试验,基于Penzien模型,建立了液化场地桩-土-桥梁结构地震相互作用的数值分析模型与相应的简化分析方法。通过振动台试验验证了数值建模途径与简化计算分析方法的正确性,可用于液化场地桩基桥梁结构地震反应的分析,并且特别考虑砂层中孔压升高引起的砂土承载力衰减效应,推荐了计算参数的合理选取方法;据此进行了桩径、桩土初始模量比、砂土内摩擦角、上部桥梁结构质量等重要参数对液化场地桩-土地震相互作用影响的敏感性分析。研究表明:在液化场地条件下,随桩径和桩土初始模量比的增大,桩的峰值加速度、峰值位移减小,而桩的峰值弯矩则增大;随砂土内摩擦角增大,桩的峰值加速度、峰值弯矩、峰值应力均增大,而桩的峰值位移则减小;随上部结构配重增大,桩的峰值位移、峰值弯矩均增大。 相似文献
8.
传统的抗震设计都是基于刚性地基的假设,然而在实际中,地基会发生变形致使上部结构的动力特性改变。本文结合工程实例,建立非线性有限元桩-土模型和土弹簧桩-土模型桩,用ANSYS建立了非线性有限元实体桩和土弹簧桩的房屋结构模型研究地震作用下结构在考虑桩-土-结构动力相互作用时的动力特性及其地震响应。 相似文献
9.
考虑地震动的随机性,利用复反应分析技术,采用随机地震反应计算方法对某一特大型桥梁群桩基础与土动力相互作用效应进行了数值试验研究。将土与群桩体系视为一个整体进行有限元离散,采用等效线性化方法考虑土体的动力非线性性能。将桥墩-群桩-土相互作用体系与自由场随机地震反应进行比较,结果表明:相互作用效应的影响与桩土模量差异以及土体与群桩基础距离有关;软土层剪应变水平及分布发生了显著变化,群桩基础两侧附近土域剪应变呈现明显的弧形分布;地表及浅层土体最大地震加速度反应有所减小,但覆盖层中下部土体加速度反应峰值明显增大,增幅达5 %~30 %左右;此外,地震地面运动的频谱成分存在显著差别。桥梁桩基础抗震设计中应充分考虑桥梁结构-群桩-土相互作用效应。 相似文献
10.
基于复合地基-上部结构相互作用的静力分析已取得一定的研究成果,但其在动力荷载作用下,特别是地震作用下的动力响应却相当匮乏。首先借助有关试验通过ABAQUS和EERA的模拟分析,验证了基于Drucker-Prager屈服准则的弹塑性模型能较好地反映土体非线性动力特性以及采用有限元与无限元耦合的方法对土体无限边界的模拟。在此基础上,针对实际问题建立了刚性桩复合地基-筏板-上部结构体系整体有限元模型,对其进行动力弹塑性时程分析,并讨论了该复合地基与桩基对地震响应的差异。深入研究了不同强度地震作用下,刚性桩复合地基的工作机制,包括桩体、褥垫层、筏板的动力响应以及上部结构的地震反应和抗震性能。结果表明,小震时褥垫层基本没有减震效果,大震时复合地基的抗震性能优于桩基。地震越强烈,减震效果越明显,但作用有限,减震系数一般在0.8以上,可为工程实践提供参考。 相似文献
11.
饱和土广泛存在于自然界之中,将土体视为固-液二相介质,基于biot饱和土介质动力方程的u-p形式研究了反映饱和土无约束域能量辐射效应影响的等效黏弹性人工边界单元,基于地震波转化为作用于人工边界节点上等效荷载的方法实现了波动输入。采用算例验证了等效人工单元的精度。建立饱和土-地铁车站非线性有限元整体模型,分析了考虑双相介质饱和土的波动传播,对比了饱和土及单相土在地震作用下地铁车站的地震反应,并与振动台试验结果进行了比较,研究表明:地震作用下采用考虑多孔介质的特性分析地基土与单相固体介质相比更加合理。通过对车站结构关键构件的加速度、位移和内力等进行分析,研究了饱和土-地下结构相互作用体系的地震反应。 相似文献
12.
The structural response of buildings subjected to seismic loads is affected by local site conditions and the interaction between
the structure and the supporting soil media. Seismic centrifuge model tests were conducted on two layered clay soil profiles
at 80 g field to investigate soil-structure interaction and dynamic response of foundation. Several earthquake-like shaking
events were applied to the models using an electro-hydraulic shaking table to simulate linear and nonlinear soil behavior.
Results showed that the foundation input motion was significantly amplified in both models, especially for weak earthquake
motions. Seismic soil-structure interaction was found to have an important effect on structure response by increasing the
amplification of foundation input motion. A 3D finite difference numerical model was also developed to simulate the response
of centrifuge model tests and study the parameters that affect the characteristics of earthquake at the base of the structure.
The results indicated that the stiffness and stratification of the soil profiles had a significant effect on modifying the
foundation input motion. 相似文献
13.
This paper presents a three-dimensional non-linear finite element (FE) approach to analyse the dynamic soil-structure interaction (SSI) phenomena observed at the Lotung Large-Scale Seismic Test (LSST) site. The numerical study is carried out in the time domain by a commercial FE code, taking into account the non-linear behaviour of soil and the multi-directional nature of real seismic events. The soil response is simulated by an isotropic hardening elasto-plastic hysteretic model (HSsmall) implemented in the material model library of the code. This model allows to describe the non-linear cyclic response ranging from small to large strain amplitudes and to account for the variation of the initial stiffness with depth.In the paper, the FE numerical approach is first validated through a series of parametric analyses simulating simplified cases (i.e. linear visco-elastic structures founded on a homogeneous linear visco-elastic soil deposit) for which analytical solutions exist. Then, it is adopted to back-analyse the behaviour of the 1/4-scale nuclear power plant containment structure constructed at the Lotung LSST site which was shook by several earthquakes of different intensities and frequency contents. The FE results are thus compared to the recorded in-situ free-field and structural motions, highlighting the satisfactory performance of the numerical model in replicating the observed response. The overall outcome of this research proves that nowadays complex dynamic SSI phenomena can be tackled by direct approach, overpassing the strong simplifications of the well-established substructure approaches. 相似文献
14.
青藏铁路多年冻土区桥梁桩基础地震响应的试验研究与数值分析 总被引:3,自引:0,他引:3
基于对负温条件下青藏铁路高温不稳定多年冻土区桥梁桩基础的缩尺模型振动台试验,明确了动荷载作用下模型桩-土界面和两桩中间土体存在温度升高响应。在此基础上,考虑天然状态和地震荷载作用下地温升高两种条件,运用动力有限元方法,对青藏铁路清水河特大桥桩基础进行了地震响应分析。计算表明,在高温状态下(-1℃以上),多年冻土的地基及桩基础在地震荷载作用下的动态响应对温度的升高异常敏感;在50年超载概率2%的青藏人工波作用下,因桩基础的相对位移增大了地基与桩基础间的滑移、脱离现象,特别是高温状态下地基与桩基础间的变形出现了明显的不稳定滑移,影响了整个桩基础的稳定性。 相似文献
15.
关于地铁地震响应的模型振动试验及数值分析 总被引:10,自引:0,他引:10
为明确大地震时地铁的破坏过程及原因,以1995 年日本阪神-淡路大地震中遭受严重破坏的神户大开地铁车站为对象,进行了一系列的模型振动试验和动力有限元分析。对于作用于地下结构的地震动土压的发生原理、地震波输入方向、结构的埋设深度、地基与结构间的刚性比对地震动土压的影响及在地基-结构系统的非线性响应下结构周围地基终局状态时的地震动土压进行了研究。明确了地震动土压的极限值及在大地震时周围地基的残余应变引起的静止土圧力的存在。为今后改进地震土压力计算方法、提高地下结构抗震设计水平提供了依据。 相似文献
16.
Hamid Reza Tabatabaiefar 《Geomechanics and Geoengineering》2017,12(1):28-35
In this study, a synthetic soil mixture has been developed and proposed for experimental soil-structure interaction shaking table tests on building frames with shallow foundations resting on soft soil deposits. The proposed mix provides adequate undrained shear strength to mobilise the required shallow foundation bearing capacity underneath the structural model while meeting both criteria of dynamic similarity between the model and the prototype to model soft soils in shaking table tests. To find the most appropriate mixture, different mixes with different proportions of mix components were examined in the soils laboratory. Performing bender element tests, the shear wave velocity of the soil specimens was acquired at different cure ages and the results were examined and compared. Based on the test results, a synthetic clay mixture consisting of kaolinite clay, bentonite, fly ash, lime and water has been proposed for experimental shaking table tests. 相似文献
17.
阵列式位移计(SAA)是一种基于微电子机械系统测试原理的测试加速度和位移的传感器,该方法具有精度高、可重复利用、自动实时采集等特点。介绍了SAA测试技术首次在成层土中桩基与复合桩基大型振动台模型试验中的应用,研究了桩基、复合地基及模型地基土体系的地震位移响应。试验结果表明:SAA可全面、直观地测试桩体及土体在地震动荷载下的加速度以及变形反应规律;测试数据发现小震作用下,地基土与桩身位移协调;随地震作用加大,地基土与桩身位移差异增大;地基土中软土夹层的存在对地基土的水平位移影响较大。 相似文献
18.
A non-linear seismic response analysis method for 2-D saturated soil–structure system with an absorbing boundary is presented. According to the 3-D strain space multimechanism model for the cyclic mobility of sandy soil, a constitutive expression for the plane strain condition is first given. Next, based on Biot's two-phase mixture theory, the finite element equations of motion for a saturated soil–structure system with an absorbing boundary during earthquake loadings are derived. A simulation of the shaking table test is performed by applying the proposed constitutive model. The effectiveness of the absorbing boundary is examined for the 2-D non-linear finite element models subjected to random inputs. Finally, a numerical seismic response analysis for a typical saturated soil–structure system is performed as an application of the proposed method. 相似文献
19.
This paper presents a non‐linear interface element to compute soil–structure interaction (SSI) based on the macro‐element concept. The particularity of this approach lies in the fact that the foundation is supposed to be infinitely rigid and its movement is entirely described by a system of global variables (forces and displacements) defined in the foundation's centre. The non‐linear behaviour of the soil is reproduced using the classical theory of plasticity. Failure is described by the interaction diagram of the ultimate bearing capacity of the foundation under combined loads. The macro‐element is appropriate for modelling the cyclic or dynamic response of structures subjected to seismic action. More specifically, the element is able to simulate the behaviour of a circular rigid shallow foundation considering the plasticity of the soil under monotonic static or cyclic loading applied in three directions. It is implemented into FedeasLab, a finite element Matlab toolbox. Comparisons with experimental monotonic static and cyclic results show the good performance of the approach. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
20.
Xueliang Jiang Feifei Wang Hui Yang Guangchen Sun Jiayong Niu 《Geotechnical and Geological Engineering》2018,36(4):2037-2055
A series of shaking table tests were designed and carried out to study the seismic behaviors of a shallow-buried small spacing tunnel with asymmetrical pressure. The key details to shaking table model test, including test equipment, model similarity relation, similarity constant, model box, physical model, layout of transducers, seismic waves, and loading system were presented. The numerical simulation of the shaking table test was also carried out by using a finite element simulation software. The results show that: (1) the Fourier spectrums in the vertical direction and horizontal direction are different at the same measuring point. The structure of tunnel transforms the Fourier spectrum of horizontal direction. (2) The stability of middle rock pillar is poor under seismic wave action. The anchor plays an important role in strengthening the stability of middle rock pillar. The dynamic strain of anchor has accumulative effect. (3) The numerical simulation results are in significant agreement with the shaking table test results. (4) Compared with type of seismic wave, peak seismic wave has a significant effect on acceleration response of tunnel. The peak acceleration response of the tunnel is linear with the peak seismic wave, in the horizontal direction. The peak acceleration response is nonlinear in the vertical direction. (5) The axial force of cross section at arch foot is larger than other position. The shock absorption effect of 10 cm seismic isolation layer is better than 5 and 20 cm. 相似文献