Control strategies and experimental verifications of the electromagnetic mass damper system for structural vibration control     

张春巍  欧进萍 《地震工程与工程振动(英文版)》2008,7(2):181-192

The electromagnetic mass damper （EMD） control system, as an innovative active control system to reduce structural vibration, offers many advantages over traditional active mass driver/damper （AMD） control systems. In this paper, studies of several EMD control strategies and bench-scale shaking table tests of a two-story model structure are described. First, two structural models corresponding to uncontrolled and Zeroed cases are developed, and parameters of these models are validated through sinusoidal sweep tests to provide a basis for establishing an accurate mathematical model for further studies. Then, a simplified control strategy for the EMD system based on the pole assignment control algorithm is proposed. Moreover, ideal pole locations are derived and validated through a series of shaking table tests. Finally, three benchmark earthquake ground motions and sinusoidal sweep waves are imposed onto the structure to investigate the effectiveness and feasibility of using this type of innovative active control system for structural vibration control. In addition, the robustness of the EMD system is examined. The test results show that the EMD system is an effective and robust system for the control of structural vibrations.  相似文献   

Prediction of pile response to lateral spreading by 3-D soil–water coupled dynamic analysis: Shaking in the direction perpendicular to ground flow     

R. Uzuoka  M. Cubrinovski  H. Sugita  M. Sato  K. Tokimatsu  N. Sento  M. Kazama  F. Zhang  A. Yashima  F. Oka 《Soil Dynamics and Earthquake Engineering》2008,28(6):436-452

The 1995 Kobe earthquake seriously damaged numerous buildings with pile foundations adjacent to quay walls. The seismic behavior of a pile group is affected by movement of quay walls, pile foundations, and liquefied backfill soil. For such cases, a three-dimensional (3-D) soil–water coupled dynamic analysis is a promising tool to predict overall behavior. We report predictions of large shake table test results to validate 3-D soil–water coupled dynamic analyses, and we discuss liquefaction-induced earth pressure on a pile group during the shaking in the direction perpendicular to ground flow. Numerical analyses predicted the peak displacement of footing and peak bending moment of the group pile. The earth pressure on the pile in the crustal layer is most important for the evaluation of the peak bending moment along the piles. In addition, the larger curvatures in the bending moment distribution along the piles at the water side in the liquefied ground were measured and predicted.  相似文献   

地下水位变化对桂林地区地基基础的影响   总被引：2，自引：0，他引：2  

刘之葵  梁金城 《中国岩溶》2005,24(3):245-249

不同季节桂林地区的地下水位变化较大。通过分析发现,地下水位的变化对地基的稳定不利。地下水位上升将降低地基土承载力特征值f a 和软弱下卧层地基承载力特征值f az ,并影响到地基换土垫层的处理设计; 而地下水位下降将加大地基沉降。因此,《地基规范》第5. 3. 5条地基变形验算没有考虑地下水位变化的影响是不合适的。为此,建议对于受地下水位影响的地基,宜按分层总和法进行地基变形计算。此外,由于桂林漓江沿岸不少的地基主要由砂砾土组成,地下水位上升还会增加砂、砾石土地基基坑主动土压力,但对于粘性土的基坑土压力则影响不明显。   相似文献   

黄河源区地下水位下降对生态环境的影响   总被引：17，自引：6，他引：11  

彭轩明  吴青柏  田明中 《冰川冻土》2003,25(6):667-671

黄河源区1:250000区域环境地质调查资料与以往资料的对比表明,黄河源区区域地下水位近几十年来呈现明显的下降趋势,主要表现在:地下水露头泉口下移,河谷区民井地下水位下降及山前冲洪积扇前缘泄出带下移.多年冻土的退化直接导致了冷生隔水层的下移,从而引起区域地下水位的下降.区域地下水位的下降导致生态水位下降,包气带土壤层的含水量减少,使该区出现植被草场退化、生物多样性减少、沼泽湿地萎缩、鼠害猖獗、荒漠化加剧及黄河断流等生态环境问题.  相似文献   

ZDY1200L型履带式全液压坑道钻机的研制   总被引：6，自引：3，他引：3  

姚亚峰  王贺剑  凡东  王龙鹏  李泉新 《煤田地质与勘探》2008,36(3):75-78

为适应当前煤矿井下小直径浅孔瓦斯抽放钻进的需要,研制了ZDY1200L型履带式全液压坑道钻机。钻机带有履带行走机构,机动性强;液压系统为开式循环双泵系统,采用负载敏感技术,降低系统功耗;具有可快速方便地调整钻孔方位角的转盘;自带电磁起动器及照明灯,使用方便,安全性强,便于钻孔作业和钻机维修。现场试验表明:该钻机操作简单,移动性好,钻进效率高,性能可靠,钻孔定位和稳固快捷方便。   相似文献   

Seismic performance of masonry walls retrofitted with steel reinforced grout          下载免费PDF全文

Stefano De Santis  Paolo Casadei  Gerardo De Canio  Gianmarco de Felice  Marialaura Malena  Marialuisa Mongelli  Ivan Roselli 《地震工程与结构动力学》2016,45(2):229-251

An innovative solution for the seismic protection of existing masonry structures is proposed and investigated through shake table tests on a natural scale wall assemblage. After a former test series carried out without reinforcement, the specimen was retrofitted using Steel Reinforced Grout. The strengthening system comprises horizontal strips of ultra‐high strength steel cords, externally bonded to the masonry with hydraulic lime mortar, and connectors to transversal walls, applied within the thickness of the plaster layer. In order to assess the seismic performance of the retrofitted wall, natural accelerograms were applied with increasing intensity up to failure. Test results provide a deep understanding of the effectiveness of mortar‐based composites for improving the out‐of‐plane seismic capacity of masonry walls, in comparison with traditional reinforcements with steel tie‐bars. The structural implications of the proposed solution in terms of dynamic properties and damage development under earthquake loads are also discussed.Copyright © 2015 John Wiley & Sons, Ltd.  相似文献   

Shake table testing of un‐reinforced brick masonry building test model isolated by U‐FREI          下载免费PDF全文

Animesh Das  Sajal Kanti Deb  Anjan Dutta 《地震工程与结构动力学》2016,45(2):253-272

This paper presents a detailed study on feasibility of un‐bonded fiber reinforced elastomeric isolator (U‐FREI) as an alternative to steel reinforced elastomeric isolator (SREI) for seismic isolation of un‐reinforced masonry buildings. Un‐reinforced masonry buildings are inherently vulnerable under seismic excitation, and U‐FREIs are used for seismic isolation of such buildings in the present study. Shake table testing of a base isolated two storey un‐reinforced masonry building model subjected to four prescribed input excitations is carried out to ascertain its effectiveness in controlling seismic response. To compare the performance of U‐FREI, same building is placed directly on the shake table without isolator, and fixed base (FB) condition is simulated by restraining the base of the building with the shake table. Dynamic response characteristic of base isolated (BI) masonry building subjected to different intensities of input earthquakes is compared with the response of the same building without base isolation system. Acceleration response amplification and peak response values of test model with and without base isolation system are compared for different intensities of table acceleration. Distribution of shear forces and moment along the height of the structure and response time histories indicates significant reduction of dynamic responses of the structure with U‐FREI system. This study clearly demonstrates the improved seismic performance of un‐reinforced masonry building model supported on U‐FREIs under the action of considered ground motions. Copyright © 2015 John Wiley & Sons, Ltd.  相似文献   

Shaking‐table tests of flat‐bottom circular silos containing grain‐like material          下载免费PDF全文

Stefano Silvestri  Salvador Ivorra  Laura Di Chiacchio  Tomaso Trombetti  Dora Foti  Giada Gasparini  Luca Pieraccini  Matt Dietz  Colin Taylor 《地震工程与结构动力学》2016,45(1):69-89

According to Eurocode 8, the seismic design of flat‐bottom circular silos containing grain‐like material is based on a rough estimate of the inertial force imposed on the structure by the ensiled content during an earthquake: 80% of the mass of the content multiplied by the peak ground acceleration. A recent analytical consideration of the horizontal shear force mobilised within the ensiled material during an earthquake proposed by some of the authors has resulted in a radically reduced estimate of this load suggesting that, in practice, the effective mass of the content is significantly less than that specified. This paper describes a series of laboratory tests that featured shaking table and a silo model, which were conducted in order to obtain some experimental data to verify the proposed theoretical formulations and to compare with the established code provisions. Several tests have been performed with different heights of ensiled material – about 0.5 mm diameter Ballotini glass – and different magnitudes of grain–wall friction. The results indicate that in all cases, the effective mass is indeed lower than the Eurocode specification, suggesting that the specification is overly conservative, and that the wall–grain friction coefficient strongly affects the overturning moment at the silo base. At peak ground accelerations up to around 0.35 g, the proposed analytical formulation provides an improved estimate of the inertial force imposed on such structures by their contents. Copyright © 2015 John Wiley & Sons, Ltd.  相似文献   

Soil–pile–structure interaction: experimental outcomes from shaking table tests          下载免费PDF全文

Maria Giovanna Durante  Luigi Di Sarno  George Mylonakis  Colin A. Taylor  Armando Lucio Simonelli 《地震工程与结构动力学》2016,45(7):1041-1061

An effective way to study the complex seismic soil‐structure interaction phenomena is to investigate the response of physical scaled models in 1‐g or n‐g laboratory devices. The outcomes of an extensive experimental campaign carried out on scaled models by means of the shaking table of the Bristol Laboratory for Advanced Dynamics Engineering, University of Bristol, UK, are discussed in the present paper. The experimental model comprises an oscillator connected to a single or a group of piles embedded in a bi‐layer deposit. Different pile head conditions, that is free head and fixed head, several dynamic properties of the structure, including different masses at the top of the single degree of freedom system, excited by various input motions, e.g. white noise, sinedwells and natural earthquake strong motions recorded in Italy, have been tested. In the present work, the modal dynamic response of the soil–pile–structure system is assessed in terms of period elongation and system damping ratio. Furthermore, the effects of oscillator mass and pile head conditions on soil–pile response have been highlighted, when the harmonic input motions are considered. Copyright © 2015 John Wiley & Sons, Ltd.  相似文献   

传递函数在场地振动台模型试验中的应用研究     

范刚  张建经  付晓  汪明元 《岩土力学》2016,37(10):2869-2876

利用场地大型振动台试验,基于传递函数理论,计算得到场地的相对传递函数和绝对传递函数,并对两类传递函数特征以及利用两类传递函数计算场地动力特性参数的差异性进行了对比,并对采用传递函数进行场地频域动力响应估算的可行性和准确性进行了分析。研究结果表明：相对传递函数和绝对传递函数的虚部重合,采用两种传递函数虚部计算场地动力参数具有等同性,且采用两种传递函数虚部曲线计算得到的动力特性参数较为准确;固有频率的计算适合采用两种传递函数的虚部或是相对传递函数的模;场地阻尼比的计算宜采用两种传递函数的虚部或绝对传递函数的模;利用两种传递函数实部、虚部或模计算得到的场地加速度振型是一致的;利用传递函数估算场地频域动力响应是可行的,且相对传递函数的估算结果更加准确。该研究对传递函数在场地动力特性参数计算及场地频域响应估算方面进行了有益的尝试。  相似文献