共查询到20条相似文献,搜索用时 15 毫秒
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土-结构-流体动力相互作用的实时耦联动力试验 总被引:3,自引:0,他引:3
针对振动台试验中无限地基难以模拟和数值分析中流-固耦合作用难以计算两个难题,将最近发展的实时耦联动力试验方法引入土-结构-流体动力相互作用问题的研究。以一个渡槽结构为例,其中渡槽-水体作为物理子结构,采用振动台进行物理试验,而无限地基作为数值子结构,采用集总参数模型进行数值模拟。两个子结构之间实时交换数据,联合评估整个耦合体系的动力响应。试验结果和有限元数值模拟结果吻合良好,表明该试验方法具有较高精度。对不同特性地基土进行的试验对比分析结果表明:对于软土地基,考虑土-结构相互作用(SSI)的结构反应幅值明显减小,周期延长;随着地基土变硬,SSI效应逐渐变弱,结构反应最终收敛至刚性地基解。 相似文献
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Massimiliano Ferraioli Lorenzo Miccoli Donato Abruzzese Alberto Mandara 《Natural Hazards》2017,86(2):489-515
The paper investigates the dynamic characterisation, the numerical model tuning and the seismic risk assessment of two monumental masonry towers located in Italy: the Capua Cathedral bell tower and the Aversa Cathedral bell tower. Full-scale ambient vibration tests under environmental loads are performed. The modal identification is carried out using techniques of modal extraction in the frequency domain. The refined 3D finite element model (FEM) is calibrated using the in situ investigation survey. The FEM tuning is carried out by varying the mechanical parameters and accounting for the restraint offered by the neighbouring buildings and the role of soil–structure interaction. The assessment of the seismic performance of the bell towers is carried out through a nonlinear static procedure based on the multi-modal pushover analysis and the capacity spectrum method. Through the discussion of the case studies, the paper shows that the modal identification is a reliable technique that can be used in situ for assessing the dynamic behaviour of monumental buildings. By utilising the tuned FEM of the towers, the theoretical fundamental frequencies are determined, which coincide with the previously determined experimental frequencies. The results from seismic performance assessment through a pushover analysis confirm that the masonry towers in this study are particularly vulnerable to strong damage even when subjected to seismic events of moderate intensity. 相似文献
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Ferraioli Massimiliano Miccoli Lorenzo Abruzzese Donato Mandara Alberto 《Natural Hazards》2016,86(2):489-515
The paper investigates the dynamic characterisation, the numerical model tuning and the seismic risk assessment of two monumental masonry towers located in Italy: the Capua Cathedral bell tower and the Aversa Cathedral bell tower. Full-scale ambient vibration tests under environmental loads are performed. The modal identification is carried out using techniques of modal extraction in the frequency domain. The refined 3D finite element model (FEM) is calibrated using the in situ investigation survey. The FEM tuning is carried out by varying the mechanical parameters and accounting for the restraint offered by the neighbouring buildings and the role of soil–structure interaction. The assessment of the seismic performance of the bell towers is carried out through a nonlinear static procedure based on the multi-modal pushover analysis and the capacity spectrum method. Through the discussion of the case studies, the paper shows that the modal identification is a reliable technique that can be used in situ for assessing the dynamic behaviour of monumental buildings. By utilising the tuned FEM of the towers, the theoretical fundamental frequencies are determined, which coincide with the previously determined experimental frequencies. The results from seismic performance assessment through a pushover analysis confirm that the masonry towers in this study are particularly vulnerable to strong damage even when subjected to seismic events of moderate intensity.
相似文献5.
The imperative need to protect structures in mountainous areas against rockfall has led to the development of various protection methods. This study introduces a new type of rockfall protection fence made of posts, wire ropes, wire netting and energy absorbers. The performance of this rock fence was verified in both experiments and dynamic finite element analysis. In collision tests, a reinforced-concrete block rolled down a natural slope and struck the rock fence at the end of the slope. A specialized system of measuring instruments was employed to accurately measure the acceleration of the block without cable connection. In particular, the performance of two energy absorbers, which contribute also to preventing wire ropes from breaking, was investigated to determine the best energy absorber. In numerical simulation, a commercial finite element code having explicit dynamic capabilities was employed to create models of the two full-scale tests. To facilitate simulation, certain simplifying assumptions for mechanical data of each individual component of the rock fence and geometrical data of the model were adopted. Good agreement between numerical simulation and experimental data validated the numerical simulation. Furthermore, the results of numerical simulation helped highlight limitations of the testing method. The results of numerical simulation thus provide a deeper understanding of the structural behavior of individual components of the rock fence during rockfall impact. More importantly, numerical simulations can be used not only as supplements to or substitutes for full-scale tests but also in parametric study and design. 相似文献
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Soil damping ratio is an important parameter for modelling the dynamic behaviour of soil embankment structures, especially for the micro‐vibration analysis of hospitals and high‐tech industries, which have a very severe construction requirement for vibration. This paper explores using a least‐squares method to evaluate the Rayleigh damping parameters for the finite element analysis of wave propagation in soils. The least‐squares method was first used in Bornitz's equation to calculate the absorption coefficients of soils. Afterward, the best‐fit Rayleigh damping parameters were obtained using those coefficients in the least‐squares scheme again. Both three‐dimensional finite element analyses and field experiments were performed to validate the accuracy of this method. The comparison between experimental and finite element results demonstrates that the accuracy of this least‐squares method is acceptable. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
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This paper mainly investigates the influences of compressible parameters on the vertical vibration of a pile embedded in layered poroelastic soil media. The pile is treated as a 1D elastic bar by the finite element method, and fundamental solutions for the layered poroelastic soils due to a vertical dynamic load are obtained by the analytical layer element method. Based on the compatibility conditions, the pile-soil dynamic interaction problem is solved. The numerical scheme has been compiled into a Fortran program for numerical calculation. Influences of the pile-soil stiffness ratio, compressible parameters, vibration frequency and the soil stratification are discussed. 相似文献
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离岸深水全直桩码头结构长期承受波浪力、撞击力等动荷载作用,仅从静力角度分析不能满足工程设计要求。为研究离岸深水全直桩码头结构动力简化计算方法,利用ABAQUS软件建立了全直桩码头的嵌固点模型和结构-地基相互作用的三维弹塑性有限元模型。基于所建立的有限元模型,采用模态分析法研究了上述码头结构的自振特性。分析表明,结构基本周期较长,与波浪力、撞击力荷载周期接近,结构动力响应突出。进一步计算发现,全直桩码头结构在波浪力、撞击力荷载作用下的动力响应有限元计算结果与采用单自由度系统位移动力放大系数理论公式计算结果吻合较好,由此提出全直桩码头结构动力响应可按单自由度系统位移动力放大系数理论公式进行简化计算。在此基础上,结合规范中的m法、p-y曲线法、NL法提出了上述码头结构动力简化计算方法,通过与动力有限元计算结果对比,验证了所建立简化计算方法的正确性。 相似文献
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This work characterizes and analyzes the dynamic behavior of a sandy soil due to one-dimensional propagation of mechanical waves into a transparent laminar shear box. The outstanding char acteristic of this laminar box is a transparent front glass, which allows monitoring the soil behavior by a high-speed and high-resolution camera, and then computing the displacement field in the soil by the Digital Image Correlation (DIC) technique. The response of the laminar container was evaluated using ambient vibrations, harmonic signals and Ricker wavelets. Afterward, dynamic soil properties derived from DIC analysis are compared against theoretical and laboratory results. Finally, a numerical simulation is carried out using the finite element method, where the influence of the lateral friction of the glass on the motion is assessed and discussed. It is concluded that the transparent laminar shear box provides a useful tool for studying the continuous dynamic soil behavior; additionally, the transparent boundary has a minor impact on the results and a minimum observable cyclic shear strain of about 10–4 was reached.
相似文献10.
结合某风洞建设项目现场桩基动力特性试验,采用三维有限差分模拟软件FLAC3D建立双桩模型基础进行计算机仿真,分析结果与试验数据吻合良好,验证了基于桩−土−结构共同作用开展数值模拟求解设备荷载作用下桩基础动力响应方法的合理性。进一步建立灌注桩后注浆模型,探讨采取不同桩侧阻力和桩端阻力增强系数对桩基动力特性的影响。结果表明:灌注桩后注浆对竖向振动的共振频率没有影响,对水平回转振动的共振频率、最大振幅、地基抗剪刚度系数和地基水平转向第1振型阻尼比的影响均很小;灌注桩后注浆能起到提高桩基抗压刚度、减少桩基最大振幅的效果,但相对于未注浆其效果有限。 相似文献
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A bridge pier supported on two drilled shafts collapsed due to the impact by a 130-ton rock in a landslide event. A series
of static and dynamic numerical simulations is conducted using a nonlinear finite element analysis program to investigate
the bearing behavior and responses of the bridge foundation under rock impact. The rock impact load is evaluated according
to the site conditions. The deflection histories at the striking point and the internal forces in the drilled shafts during
rock impacts in different directions are analyzed. The bridge pier exhibits significant system effects: the failure of the
bridge pier is initiated by the failure of one pier column or one drilled shaft first, followed by the failure of the entire
pier. The effects of impact loading direction, striking location, and characteristics of impact load on the behavior of the
bridge pier are examined through a parametric study. The capacities of the pier along different loading directions are different
due to differences in the group effects of the drilled shafts. The bridge pier is strongest when the impact load is along
the 45° direction with respect to the shaft row, and weakest when the impact load is perpendicular to the shaft row. 相似文献
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Hongguang Jiang Xuecheng Bian Chong Cheng Yunmin Chen Renpeng Chen 《Acta Geotechnica》2016,11(2):231-242
Ballastless high-speed railways have dynamic performances that are quite different from those of conventional ballasted railways. The essential dynamic characteristics of high-speed railways due to passing train wheels, such as the cyclic effect, moving effect, and speed effect, were put forward and discussed. A full-scale accelerated railway testing platform for ballastless high-speed railways was proposed in this study. The feasibility of the sequential loading method in simulating train moving loads, and the boundary effect of the proposed physical model of ballastless railways, was investigated using three-dimensional finite element models. A full-scale physical model, 5 m long, 15 m wide, and 6 m high, was then established according to practical engineering design methods. Using a sequential loading system composed of eight high-performance hydraulic actuators, loads of a moving train with highest speed of 360 km/h were simulated. Preliminary experimental results of vibration velocities were presented and compared with field measurements of the Wuguang high-speed railway in China. Results showed that the experimental results coincided with the field measurements, demonstrating that the full-scale accelerated railway testing platform can simulate the process of a moving train and realistically reproduce the dynamic behaviors of ballastless high-speed railways. 相似文献
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Study of Nonlinear Seismic Response and TMD Primary Control of the Cable-Stayed Bridge Section of the Third Macao-Taipa Bridge 总被引:2,自引:0,他引:2
LongXiaohong LiLi 《中国地质大学学报(英文版)》2004,15(4):409-415
The practical design of the cable-stayed bridge of the 3rd Macao-Taipa bridge is investigated by the finite element analysis program ANSYS, and 3-D elements BEAM188 and BEAM4 are adopted to create a dynamic calculation model. In order to analyze the material nonlinear seismic response of the cable-stayed bridge, the nonlinear behaviors of the ductile plastic hinges of the bridge towers are taken into account by employing the nonlinear rotational spring element COMBIN40. To simulate a major earthquake, three earthquake records were chosen using a wave-choosing program and input into the bridge structure along longitudinal and transversal directions. Comparisons of the linear and nonlinear seismic responses of the cable-stayed bridge are performed. In addition, a study of TMD primary control is carried out using element MASS21 and element COMBIN14, and it is indicated that the effects of mitigation monitoring are evident. 相似文献
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应用高应变动测法确定基桩的承载力非常依赖测试人员的经验且存在多解性问题。为克服这种现象,介绍了一种新的直接动测法,并以一灌注桩的现场静载试验为对象,建立了详细的基桩有限元静力、动力分析模型。静力模拟比较分析表明,该有限元模型能准确地模拟文献的结果。在此基础上,通过有限元动力分析,得到锤击下桩的应力场、位移场、速度场和加速度场。根据有限元计算结果,分析了直接动测法的有效性。直接动测法确定的承载力和静载法一致。该直接动测法消除了现有高应变法存在的多解性问题,故可以得到单桩承载力的客观性结果。 相似文献
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基于轮轨相互作用原理,建立了城轨交通高架线路列车振动荷载激励函数。将该激励力作用在有限元软件建立的三维轨道支承结构和土体传播路径计算模型上,对地铁运行引起的周边环境振动响应进行了仿真模拟,并利用现场实测数据进行了比较和验证。进一步,分析了列车运行速度和场地土特性对环境振动的参数影响。在对各参数的影响特征进行了定量分析的基础上,通过统计分析,建立了城市轨道交通高架线路环境振动的振级预测公式,并利用现场实测数据进行了验证。研究表明,仿真模拟和预测结果能够较为真实的反映城轨交通高架线路运行引起的环境振动的实际情况。 相似文献
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考虑桩-土作用的高速列车-桥梁地震响应分析 总被引:1,自引:0,他引:1
基于空间梁单元有限元法,建立了两种高速铁路多跨简支梁桥的全桥空间分析模型,一种是包括桩基的列车-桥梁模型,给出成层土的动力阻抗,采用改进的Penzien模型模拟桩-土作用;一种是不考虑桩-土作用的墩底固结的列车-桥梁模型;分析了两种模型的自振特性,计算了两种模型在不同车速、墩高、地震强度、不同地震波等工况下的地震反应。计算结果表明,桥梁横向位移、加速度主要受到低频成分的影响,这部分频率与其底部地震波相互反馈,改变了地基运动的频谱组成,使接近于桥梁结构自振频率的分量获得加强,考虑桩-土作用后,横向位移/加速度增加较大;桥梁竖向振动频率受桩-土作用影响较小,随墩高和车速的增加梁体竖向位移增加不大,梁体竖向加速度受高频成分的影响较大,这些高频主要由车辆荷载和轨道不平顺引起。 相似文献
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冻结黏土卸载状态下双屈服面流变本构关系研究 总被引:1,自引:0,他引:1
卸载状态下冻土三轴蠕变试验结果表明,冻土具有明显的剪胀性,且体积应变不能忽略。为了全面反映冻土在卸载状态下的蠕变变形规律,以简单的黏弹塑模型为基本流变元件,提出了冻土服从椭圆-DP双屈服面流变本构力学模型。通过有限元程序的二次开发,将该模型嵌入到ADINA有限元程序中。对冻土三轴蠕变试验过程进行了数值模拟表明,椭圆-DP型双屈服面本构力学模型能够较好地反映冻土的剪胀性和体积应变等变形性质,数值模拟和试验结果吻合良好,可为冻土工程数值计算提供参考。 相似文献
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波浪作用下某防沙堤的动力固结有限元分析 总被引:1,自引:0,他引:1
基于饱和土动力固结理论,采用SWANDYNE II有限元分析,程序预测一个梯形沉箱防沙堤在某设计波浪作用下的响应。采用Pastor-Zienkiwicz Mark III广义塑性模型模拟了海床土的循环应力-应变行为。通过动三轴试验,确定了主要的模型参数,分析中只考虑了波浪对结构的作用,忽略行波对海床表面的作用。动力固结有限元分析的结果定性上与常规的拟静力极限平衡分析方法一致,有限元分析定量给出了体系的位移、应力、孔隙水压力分布和结构位移随波浪持续时间的累积过程,其研究结果初步展现了动力固结有限元方法在近海和海岸岩土工程领域的广阔应用前景。 相似文献
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A finite element method is developed for the study of elastic wave propagation in layered ground environments. The formulation is based on a spectral finite‐element approach using a mixture of high‐order element shape functions and wave solutions. The numerical method provides solutions to vibration transmission on and within layered elastic waveguides. Examples of its use include the theoretical analysis of transmission of vibrations in the vicinity of the surface of the ground. The mathematical model is two dimensional, and the interior of the ground is modelled as an elastic layer overlying a rigid foundation. An analysis of the natural modes of free vibration in a single layer and two layers is presented and compared with known results. In addition the forced response of the layers, for which the surface is assumed to be subjected to a harmonic point force load is shown. These results also include an illustration of the attenuation of surface vibration due to ‘wave impedance blocks’ in the ‘near field’ of the source up to a frequency of 200 Hz for two soil types. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献