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1.
组合基础隔震结构双向地震反应分析 总被引:2,自引:0,他引:2
本文采用双向耦合恢复力模型模拟组合隔震系统中隔震支座的双向耦合效应,对组合基础隔震结构进行了单向和双向地震反应对比分析,分析表明在水平双向地震作用下结构各层的加速度反应较小,隔震层的层间位移较大,而上部结构的层间位移较小,并且在水平双向地震作用下,支座的最大位移明显大于单向地震作用时支座的最大位移,因而应考虑水平双向地震作用对组合基础隔震结构地震反应和隔震支座性能的影响。 相似文献
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铅芯叠层橡胶支座基础隔震结构双向地震反应分析 总被引:6,自引:1,他引:6
本文对铅芯叠层橡胶支座双向耦合恢复力模型进行了改进,采用基础隔震结构动力分析程序DABIS对铅芯叠层橡胶支座基础隔震结构进行了单向及双向地震反应对比分析。结果表明,在单向和双向地震作用下,基础隔震结构的加速度反应和位移反应较为接近,但在双向地震作用下,支座的最大位移明显大于单向地震作用时的支座最大位移,因而在确定支座最大位移时应考虑双向地震作用的影响。 相似文献
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摩擦摆基础隔震上部偏心结构地震反应影响因素分析 总被引:1,自引:0,他引:1
对上部结构存在偏心的摩擦摆基础隔震结构进行了水平双向地震作用下的地震反应分析,研究了上部结构偏心距和抗扭刚度对结构地震反应的影响。分析表明:上部结构偏心距对上部结构和隔震层的位移反应和加速度反应均有较大影响,即使在上部结构偏心距较小时,其对结构地震反应仍有一定程度的影响;上部结构的抗扭刚度对上部结构的加速度反应影响较小,而对上部结构的位移反应影响较大;上部结构的抗扭刚度对隔震层的加速度反应和位移反应影响较小。因而,对于上部结构存在偏心的摩擦摆基础隔震结构,应减小上部结构偏心距并增大其抗扭刚度以减小摩擦摆基础隔震结构的扭转反应。 相似文献
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抗拔型三重摩擦摆隔震支座是一种新型隔震支座。以框架结构为例,利用ANSYS软件建立了6层和10层普通抗震结构和带该支座的基础隔震结构模型;通过模态分析,得到了结构的自振周期;通过地震响应分析,提取了6层框架隔震层和顶层的位移、加速度和剪力时程曲线,并提取了不同层数不同结构类型的各层间位移、加速度幅值。结果表明:与抗震结构相比,基础隔震结构周期显著增大;隔震结构的变形主要集中在隔震层,隔震层以上的结构基本为整体平动,结构的地震位移反应得到了有效的减小;采用抗拔型三重摩擦摆隔震支座能降低结构地震加速度反应;设置抗拔型三重摩擦摆隔震支座的多层数隔震结构的能量衰减不如低层数的隔震结构迅速。 相似文献
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LRB隔震储罐地震反应的双向耦合效应 总被引:1,自引:0,他引:1
建立了双向地震作用下LRB基础隔震储罐地震反应的数值模型,对单向和双向地震作用下隔震储罐的地震反应和隔震支座的力学性能进行了对比研究。提出了衡量双向耦合效应影响的评价指标,分析了不同类型场地上隔震储罐地震反应的双向耦合效应影响规律。研究表明,双向耦合效应使支座滞回曲线变得不规则,呈现出粘滞特性。双向耦合效应不会引起隔震储罐基底剪力、弯矩、晃动波高的明显增大,但忽视双向耦合效应会严重低估支座位移,尤其是在II类和IV类场地上更为明显。因此在LRB隔震储罐双向地震反应分析时,不能简单选取两个单向地震作用下响应的组合值作为地震响应值,必须考虑双向耦合效应的影响。 相似文献
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高层摩擦摆基础隔震结构在远场长周期地震动长持时的长周期成份作用下,尤其是类谐波成份作用下,隔震层上部结构的减震性能将可能无法得到保证,且摩擦摆支座亦可能产生超限变形。为此,远场长周期地震动作用下高层摩擦摆基础隔震结构的减震性能需进一步探讨。通过一幢框架-核心筒高层摩擦摆基础隔震结构的非线性地震响应分析,揭示远场长周期地震动,尤其是在类谐和长周期地震动下框架-核心筒高层摩擦摆基础隔震结构的地震响应规律。提出在隔震层增设黏滞阻尼器对结构的地震响应进行控制。结果表明:摩擦摆隔震不能满足结构在远场类谐和长周期地震动作用的减震要求,而且还将放大其作用下结构的非线性响应;组合隔震结构能较有效地控制长周期地震动、特别是远场类谐和长周期地震作用下隔震层上部结构以及隔震层的弹塑性地震响应,尤其可显著减小隔震支座的最大变形,使其不超越隔震支座的容许变形值。 相似文献
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建立双向地震作用下层间隔震双向偏心结构侧扭耦联分析模型;考虑上部结构及下部结构的弹塑性模型,隔震支座采用双向耦合非线性Bouc-wen模型模拟;分析偏心参数对层间隔震双向偏心结构的影响规律;评价双向地震作用下我国抗震规范给出的扭转影响系数静力预测值的准确性。结果表明,双向地震作用下设置中间柔性隔震层可以减小上\,下部结构扭转的耦连效应;下部结构存在双向偏心会对隔震层和下部结构扭转反应带来不利影响;LRB耦合效应对层间隔震地震响应影响较小;当下部结构偏心率较大时现行规范计算扭转系数偏于不安全。 相似文献
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对摩擦摆基础隔震结构进行了地震反应分析,研究了支座滑道半径对支座位移、楼层加速度和楼层剪力的影响,表明当支座的摩擦系数较小时,随着支座滑道半径的增大,隔震结构的自振周期增大,摩擦摆支座位移逐渐增大,结构的加速度反应和楼层剪力减小当支座的摩擦系数较大时,改变支座的滑道半径,调整基础隔震结构周期对支座位移、结构加速度反应和... 相似文献
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近断层地震动中长周期、短持时和高能量的加速度脉冲将对高层摩擦摆基础隔震结构的减震性能产生不利影响,考虑土-结构相互作用(SSI效应)后的隔震结构将产生动力耦合效应,可能进一步放大隔震结构地震响应。为此,通过一幢框架-核心筒高层摩擦摆基础隔震结构的非线性地震响应分析,考察近断层脉冲型地震动作用下框架-核心筒摩擦摆基础隔震结构的层间位移角、楼层加速度和隔震层变形等响应规律,揭示隔震体系的损伤机理。基于集总参数SR (sway-rocking)模型,分析不同场地类别与不同地震动类型对隔震体系动力响应影响规律。结果表明:高层摩擦摆基础隔震结构在近断层脉冲型地震动作用下的减震效果相比普通地震动减震效果变差,楼层剪力、层间位移角和隔震层变形等超越普通地震动作用下的1.5倍;对于Ⅲ和Ⅳ类场地类别,考虑SSI效应使隔震结构的地震响应进一步放大,弹塑性层间位移角随着土质变软增大尤为明显。 相似文献
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通过对隔震结构进行非线性动力响应分析,分别研究地震动参数和支座参数对结构地震响应的影响。首先,建立铅芯橡胶支座基础隔震结构的非线性运动方程;然后,以人工合成脉冲型地震动作为输入,运用MATLAB进行编程并求解结构在脉冲型地震动作用下的地震响应;最后,分别研究速度脉冲周期、支座屈服力、屈服后与屈服前的刚度比对隔震支座最大位移和上部结构层间位移的影响。研究结果表明,脉冲周期对结构地震响应影响很大,在进行隔震设计时应使结构自振周期远离脉冲周期;支座刚度比对结构地震响应影响较大,在进行支座选型时应重点关注;支座屈服力对支座位移的影响显著,屈服力越大,支座位移越小。 相似文献
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近断层脉冲型地震动作用下隔震结构地震反应分析 总被引:17,自引:5,他引:17
隔震结构在远震场地减震效果良好,但是近断层地震动的明显的长周期速度和位移脉冲运动可能对隔震建筑等长周期结构的抗震性能和设计带来不利影响,需要深入探讨。本文首先讨论近断层地震动的长周期脉冲运动特征,然后以台湾集集地震8条典型近震记录和其它4条常用近震记录以及4条远震记录作为地震动输入,对两幢安装铅芯橡胶隔震支座的钢筋混凝土框架隔震结构进行非线性地震反应时程分析,通过比较探讨了算例计算结果,定量说明隔震结构的近震脉冲效应显著,是隔震设计不容忽视的问题。 相似文献
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《中国地震研究》2021,(2)
Long-period structures(e.g. Isolated structures) tend to produce pseudo-resonance with low frequency components of long-period ground motions, resulting in the increase in damage. Stiffness mutation occurs due to the setback in the upper body of the large chassis structure. In the parts with stiffness mutation, the torsion effect caused by the tower is far greater than that of the chassis itself. In this study, a total of 273 ground motions are collected and then filtered into four types, including the near-field ordinary, near-field pulse, far-field ordinary, and farfield harmonic. An 8-degree(0.2 g) fortified large chassis base-isolated structure is established. Furthermore,ETABS program software is used to conduct nonlinear time history analysis on the isolation and seismic model under bi-directional earthquake ground motions. The comparison results show that the seismic isolation effect of the base-isolated structure under long-period ground motions is worse than that associated with ordinary ground motions when the seismic response reduction rate of the large base floor significantly decreases compared with that of the tower. When the inter-story displacement angle and the displacement of isolation layer of the chassis exceeds the limit of Code for Seismic Design of Buildings(GB 50011-2010), it is recommended to adopt composite seismic isolation technology or add limit devices. Under the condition of long-period ground motions, the baseisolated structure reduces the lateral-torsional coupling effect of the large chassis structure, while the torsion response of large chassis' top layer increases. Under long-period ground motions with the same acceleration peak,the response of the base-isolated structure increases much more than that of the seismic structure and the consideration of this impact is suggested to be added to the Code. 相似文献
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Rachel L. Calafell Paul N. Roschke Juan C. de la Llera 《Bulletin of Earthquake Engineering》2010,8(4):1019-1036
In this study friction pendulum system (FPS) bearings and precast-prestressed pile (PPP) isolators are considered as base
isolation devices for a Chilean confined masonry house. The house is numerically modeled using a multiple degree-of-freedom
approach that is calibrated with experimental data. Dynamic behavior of the FPS and PPP isolators is simulated using analytical
formulations based on laboratory testing. Optimization of the isolators is performed using an earthquake that is generated
to match the design spectrum for the house based on Chilean seismic code. A non-dominated sorting genetic algorithm (NSGA-II)
is applied to carry out the optimization. Seismic response of the base-isolated structure subjected to a suite of ground motions
is compared to the performance of the traditionally-constructed structure by means of several performance indices (PIs). Numerical
simulations indicate that the PPP isolation system is more effective in reducing the base and structural shear, interstory
drift, and floor acceleration of the structure than the FPS isolation system, although both systems result in substantial
reductions of the response. 相似文献
15.
Viscous and other damping devices are often used as elements of seismic isolation systems. Despite the widespread application of nonlinear viscous systems particularly in Japan (with fewer applications in the USA and Taiwan), the application of viscous damping devices in isolation systems in the USA progressed intentionally toward the use of supplementary linear viscous devices due to the advantages offered by these devices. This paper presents experimental results on the behavior of seismically isolated structures with low damping elastomeric (LDE) and single friction pendulum (SFP) bearings with and without linear and nonlinear viscous dampers. The isolation systems are tested within a six‐story structure configured as moment frame and then again as braced frame. Emphasis is placed both on the acquisition of data related to the structural system (drifts, story shear forces, and isolator displacements) and on non‐structural systems (floor accelerations, floor spectral accelerations, and floor velocities). Moreover, the accuracy of analytical prediction of response is investigated based on the results of a total of 227 experiments, using 14 historic ground motions of far‐fault and near‐fault characteristics, on flexible moment frame and stiff braced frame structures isolated with LDE or SFP bearings and linear or nonlinear viscous dampers. It is concluded that when damping is needed to reduce displacement demands in the isolation system, linear viscous damping results in the least detrimental effect on the isolated structure. Moreover, the study concludes that the analytical prediction of peak floor accelerations and floor response spectra may contain errors that need to be considered when designing secondary systems. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献