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本文归纳了桥梁结构采用隔震技术时存在的主要问题,指出了模型桥梁进行模拟地震振动台试验研究的意义,简要介绍了模型试验设计情况及三种隔震体系模型桥梁动力特性测试结果。 相似文献
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配重不足时的动力试验模型与原型相似关系问题的探讨 总被引:9,自引:7,他引:9
本文分析了动力方程法和参数的量纲分析法的关系。指出采用量纲分析法时正确选择基本参数的重要性。文中用两种方法推导了不同配重条件下,模型与原型的动力相似关系,并且提出了在结构进入弹塑性阶段后,应如何根据得出的相似关系来分析原型的动力性能。为解决振动台试验时配重不足条件下,如何根据试验结果正确地推算原型结构的抗震性能提供了一种可靠的定量方法。文中以两个1/4比例八层砌体结构房屋模型的振动台试验结果和足尺模型的动力分析结果验证了本文给出的动力相似关系的正确性。 相似文献
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风电塔是一种顶部有较大偏心质量的高耸薄壁悬臂结构,以某1.5MW水平轴三叶片风电塔为研究对象,重点关注风电塔振动台试验缩尺模型设计。根据量纲分析理论和相似条件,基于模型质量分布和刚度分布等效原则,设计模型塔筒截面及附加质量,保证模型与原型结构自振频率和振型相似。通过对比分析模型动力特性测试结果与原型实测结果,验证了该模型设计方法的合理性,可为同类型风电塔振动台试验设计提供参考与依据。针对该柔性对称高塔模型在动力特性测试中出现的正交耦合振动及拍振现象也进行了详细阐述。 相似文献
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立面收进超限高层建筑结构振动台模型试验研究 总被引:5,自引:1,他引:4
本文介绍了嘉里静安综合发展项目(南区)南塔楼的结构体系、整体结构模拟地震振动台试验模型材料的选取、动力相似关系的确定以及模型的简化设计。通过分析模型结构在7度多遇地震、基本烈度、罕遇地震和8度罕遇地震阶段的动力特性、加速度及位移反应,根据相似关系得到原型结构的动力特性、层间位移、楼层剪力等动力反应。研究表明,原型结构能够满足我国现行规范"小震不坏、大震不倒"的抗震设防标准。在特大地震作用下,结构立面收进处和斜柱层存在薄弱部位。 相似文献
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不同比例钢-混凝土混合结构高层建筑动力相似关系试验研究 总被引:3,自引:0,他引:3
模型试验的动力相似理论是结构抗震试验技术中的一个基础性研究课题。本文设计实现了1/10、1/20和1/30三个不同比例的钢-混凝土混合结构高层建筑的振动台模型试验。通过对三个模型试验结果的对比研究,对钢-混凝土混合结构高层建筑的动力相似关系进行了初步探讨。试验结果表明,按照本文的动力模型的设计施工及试验要求进行的不同比例钢-混凝土混合结构高层建筑的振动台试验,在自振频率、振型、加速度放大系数、楼层最大位移、楼层剪力等动力特性和动力反应方面具有较好的相似性。试验结果一方面说明对这三个模型采用的动力相似关系和制作方法是合理的,另一方面也说明了对钢-混凝土混合结构房屋采用较小的1/30比例进行振动台试验是可行的。 相似文献
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12层异形柱小型混凝土空心砌块组合结构拟动力试验研究 总被引:3,自引:0,他引:3
异形柱小型混凝土空心砌块组合结构以其先砌墙后浇注、墙与柱马牙槎连接和墙内有暗梁的特点,使其有别于普通异形柱结构,将其用于小高层中的抗震能力值得研究,本课题通过12层1/3.2比例模型的拟动力试验,探讨了这种新型结构体系的受力特点、动力特性,为其在工程实践的应用提供试验基础。 相似文献
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振动台试验模型地基土的设计与试验研究 总被引:3,自引:0,他引:3
本文在动力相似关系的分析基础之上,设计了一种以锯末为主要成分,用于地基-基础-上部结构动力相互作用振动台试验的模型土。用循环单剪仪对原型土和设计的模型土分别进行了试验,得出了2者的动剪切模量比Gd/Gdm ax和阻尼比λ随动剪应变γd变化的关系曲线,对两种土的动力特性进行了相似对比。试验结果表明,设计的模型土与原型土的动力特性具有较好的相似性。采用等效线性本构模型,给出了原型土和模型土的动力特性参数。对采用本文所设计的模型土进行振动台试验的动力相似问题进行了初步讨论。 相似文献
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无伸缩缝桥梁的动力特性计算与试验研究 总被引:2,自引:0,他引:2
福建省永春县上坂大桥是目前我国修建桥长最大,采用整体式桥台的无伸缩缝桥梁。本文通过该桥的动力试验研究了该桥在天然脉动荷载作用下的自振特性,采用结构分析软件ANSYS建立全桥的空间模型,计算该桥的自振特性,与实测结果进行了分析比较。实桥试验还测试了无障碍行车试验和跳车试验这2种车辆激振作用下桥梁的强迫振动特性,并把实测的荷载冲击系数与新桥规的计算结果进行比较。研究结果有助于对该类桥梁动力特性的认识,有利于进一步开展无伸缩缝桥梁的抗震性能研究。 相似文献
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为研究不同贮料状态下钢筋混凝土柱承式立筒群仓结构的动力特性及其在地震作用下的动力响应规律,对缩尺比例为1:25的3×3组合柱承式立筒群仓结构模型进行了振动台试验。试验结果表明:柱承式筒仓结构具有“上刚下柔”的特性,使其加速度响应和整体变形均沿高度呈折线型,折点在刚度突变的柱顶和仓壁连接部位;贮料状态对立筒群仓结构动力特性的影响较大,随着贮料质量的增加,群仓模型加速度响应、位移响应的弯折效应均更加明显,边仓和角仓的加速度响应均逐渐增大;贮料及其与仓体间相互作用对耗能的贡献随着台面加载等级的增加而逐渐加大。 相似文献
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Alemdar Bayraktar Temel Türker Ahmet Can Altunişik Barış Sevim 《Soil Dynamics and Earthquake Engineering》2010,30(5):310-319
Seismic protection of buildings under risk can be achieved by increasing the knowledge about the behaviour of existing structures. Operational Modal Analysis is a powerful tool used for this purpose all over the world. It provides the dynamic characteristics of structures under operational conditions or some particular environmental issues such as blasts and earthquakes. The main objective of this study is to evaluate blast effects on a reinforced concrete (RC) building considering experimentally determined dynamic characteristics. The study consists of three phases: the measurement of vibration characteristics of blasting, the theoretical modal analysis of the inspected building, and experimental verification of dynamic characteristics using modal testing. The vibration characteristics of blasting are measured around the inspected building on hard soil using a geophone set. The initial analytical model of the building is constructed according to the in-situ investigation on building. The theoretical modal analysis results are verified by carrying out modal testing on the RC building. The Operational Modal Analysis method is used for the extraction of the dynamic characteristics of the building, and blast vibrations are taken into account as environmental vibrations. The effects of blasting on the reinforced concrete building are introduced by assessing the vibration of blasting with the dynamic characteristics of the building. 相似文献
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Concentrated plasticity (CP) models are frequently used in static and dynamic building analysis and have been implemented in available commercial software. This investigation deals with three different CP‐models, a simplified macroelement model (SEM) for a complete building story, a frame element with elasto‐plastic interaction hinges (PH), and a frame element with fiber hinges (FB). The objectives of this work are to evaluate the quality of the earthquake responses predicted by these models and to identify important aspects of their implementation and limitations for their use in dynamic analysis. The three elements are tested in a single‐story asymmetric plan building and in a three‐story steel building. Results show that base shear and global response values are usually computed with better accuracy than interstory deformations and local responses. Besides, the main limitation of elasto‐plastic CP models is to control the displacement offsets that result from perfect elasto‐plastic behavior. On the other hand, calibration of the SEM‐model shows that global responses in steel structures may be computed within 20% error in the mean at a computational cost two orders of magnitude smaller than that of the other CP elements considered. However, the three element models considered lead to increasing levels of accuracy in the dynamic response and their use depends on the refinement of the analysis performed. Copyright © 2005 John Wiley & Sons, Ltd. 相似文献
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《地震工程与工程振动(英文版)》2015,(3)
Analytical models prepared from field drawings do not generally provide results that match with experimental results.The error may be due to uncertainties in the property of materials,size of members and errors in the modelling process.It is important to improve analytical models using experimentally obtained data.For the past several years,data obtained from ambient vibration testing have been successfully used in many cases to update and match dynamic behaviors of analytical models with real structures.This paper presents a comparison between artificial neural network(ANN) and eigensensitivity based model updating of an existing multi-story building.A simple spring-mass analytical model,developed from the structural drawings of the building,is considered and the corresponding spring stiffness and lumped mass of all floors are chosen as updating parameters.The advantages and disadvantages of these updating methods are discussed.The advantage is that both methods ensure a physically meaningful model which canbe further employed in determining structural response and health monitoring. 相似文献
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Amplitude dependence of equivalent modal parameters in monitored buildings during earthquake swarms 
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下载免费PDF全文 Rosario Ceravolo Emiliano Matta Antonino Quattrone Luca Zanotti Fragonara 《地震工程与结构动力学》2017,46(14):2399-2417
This paper investigates the dynamic response of three sample buildings belonging to the Seismic Observatory for Structures, the Italian network for the permanent seismic monitoring of strategic structures, managed by the Italian Department of Civil Protection. The case studies cover different building types that could loosely represent the Italian building stock, with a special emphasis on cultural heritage and masonry structures. Observed under a low‐intensity seismic swarm comprising about 30 aftershocks after a main event, the three buildings are analysed through an input–output, model‐driven linear dynamic identification procedure, depicting the relation between the shaking level at the site and the variation of the equivalent structural modal parameters, while keeping into account the effects of soil–structure interaction. Finite element models will be used to investigate one of the case studies and to compare the law of variation of the structural modal parameters with respect to simplified models proposed by technical standards. Copyright © 2017 John Wiley & Sons, Ltd. 相似文献
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Miha Tomaevi
《地震工程与结构动力学》1987,15(6):731-749
The dynamic behaviour of a four-storeyed masonry building model subjected to simulated earthquake loading has been investigated. The observations of damage propagation during shaking tests indicated the storey mechanism action of model building. Since the predominant effect of the first natural mode of vibrations has been also observed, the idea of simple mathematical modelling has been followed in the calculations. Two simple analytical models have been compared when evaluating the dynamic response of the model building: a four degrees of freedom shear system and an equivalent single degree of freedom system. Three hysteresis rules have been taken into account for modelling the non-linear behaviour of the model. Satisfactory correlation between the measured and calculated response has been obtained in most cases. 相似文献
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Correlating measured and simulated dynamic responses of a tall building to long‐distance earthquakes
For almost a decade, a 66‐storey, 280m tall building in Singapore has been instrumented to monitor its dynamic responses to wind and seismic excitations. The dynamic characteristics of the tall building have been investigated via both the finite element method and the experimental modal analysis. The properties of the finite element model have been shown to correlate well with those derived from the data recorded during the ambient vibration tests. During the study period, 21 sets of earthquake ground motions have been recorded at the building site. The basement motions may be divided into three categories based on their predominant frequency components with respect to the building's fundamental frequency. The calibrated three‐dimensional finite element model is employed to simulate the seismic response of the tall building. Correlation analysis of the time histories between the recorded data and the simulated results has been carried out. The correlation analysis results show that the simulated dynamic response time histories match well with those of the recorded dynamic responses at the roof level. The results also show that the simulated maximum response at the roof level is close to the peak response recorded during the earthquakes. Copyright © 2004 John Wiley & Sons, Ltd. 相似文献
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Seyedsina Yousefianmoghadam Iman Behmanesh Andreas Stavridis Babak Moaveni Amin Nozari Andrea Sacco 《地震工程与结构动力学》2018,47(1):25-47
This paper discusses the dynamic tests, system identification, and modeling of a 10‐story reinforced concrete building. Six infill walls were demolished in 3 stages during the tests to introduce damage. In each damage stage, dynamic tests were conducted by using an eccentric‐mass shaker. Accelerometers were installed to record the torsional and translational responses of the building to the induced excitation, as well as its ambient vibration. The modal properties in all damage states are identified using 2 operational modal analysis methods that can capture the effect of the wall demolition. The modal identification is facilitated by a finite element model of the building. In turn, the model is validated through the comparison of the numerically and experimentally obtained modal parameters. The validated model is used in a parametric study to estimate the influence of structural and nonstructural elements on the dynamic properties of the building and to assess the validity of commonly used empirical formulas found in building codes. Issues related to the applicability and feasibility of system identification on complex structures, as well as considerations for the development of accurate, yet efficient, finite element models are also discussed. 相似文献
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为了增强巨子型有控结构建筑的动力特性,提升其稳定性,设计双向地震波作用下建筑有控结构。采用3种磁流变阻尼器(MRD)与滑移隔震混合控制结构构成单体建筑有控结构,其包括巨结构和子结构,并建立该有控结构的动力分析模型。在动力分析模型中输入水平和竖向地震,得到模型的竖向和水平滑动状态运动微分方程,依据这两个方程采用自适应模糊神经网络优化动力分析模型,构建优化模型。从优化模型出发,通过实例实验分析得出,优化设计双向地震波作用下建筑有控结构时,在其上部结构层间和隔离层各安装一个MRD,可确保优化设计后的有控结构在不同双向地震工况下的地震反应控制效果最佳,且有控结构在双向地震工况2下,结构第一层、中间三层以及顶层的加速度和位移的时程曲线走向一致,且差距微小;同时有控结构的巨结构顶层侧移响应随着子结构刚度增加而提高,动力特性没有明显的变化,子结构随着其自身刚度增加顶层侧移响应表现稳定,子结构动力特性增强。 相似文献