Inelastic response of RC frame buildings with seismic isolation     

Donatello Cardone  Amedeo Flora  Giuseppe Gesualdi 《地震工程与结构动力学》2013,42(6):871-889

A comprehensive parametric study on the inelastic seismic response of seismically isolated RC frame buildings, designed for gravity loads only, is presented. Four building prototypes, with 23 m × 10 m floor plan dimensions and number of storeys ranging from 2 to 8, are considered. All the buildings present internal resistant frames in one direction only, identified as the strong direction of the building. In the orthogonal weak direction, the buildings present outer resistant frames only, with infilled masonry panels. This structural configuration is typical of many existing RC buildings, realized in Italy and other European countries in the 60s and 70s. The parametric study is based on the results of extensive nonlinear response‐time history analyses of 2‐DOF systems, using a set of seven artificial and natural seismic ground motions. In the parametric study, buildings with strength ratio (F_y/W) ranging from 0.03 to 0.15 and post‐yield stiffness ratio ranging from 0% to 6% are examined. Three different types of isolation systems are considered, that is, high damping rubber bearings, lead rubber bearings and friction pendulum bearings. The isolation systems have been designed accepting the occurrence of plastic hinges in the superstructure during the design earthquake. The nonlinear response‐time history analyses results show that structures with seismic isolation experience fewer inelastic cycles compared with fixed‐base structures. As a consequence, although limited plastic deformations can be accepted, the collapse limit state of seismically isolated structures should be based on the lateral capacity of the superstructure without significant reliance on its inherent hysteretic damping or ductility capacity. Copyright © 2012 John Wiley & Sons, Ltd.  相似文献   

Validation of nonlinear time history analysis models for single‐storey concentrically braced frames using full‐scale shake table tests     

J. Goggins  S. Salawdeh 《地震工程与结构动力学》2013,42(8):1151-1170

The concentrically braced frame (CBF) structure is one of the most efficient steel structural systems to resist earthquakes. This system can dissipate energy during earthquakes through braces, which are expected to yield in tension and buckle in compression, while all other elements such as columns, beams and connections are expected to behave elastically. In this paper, the performance of single‐storey CBFs is assessed with nonlinear time‐history analysis, where a robust numerical model that simulates the behaviour of shake table tests is developed. The numerical model of the brace element used in the analysis was calibrated using data measured in physical tests on brace members subjected to cyclic loading. The model is then validated by comparing predictions from nonlinear time‐history analysis to measured performance of brace members in full scale shake table tests. Furthermore, the sensitivity of the performance of the CBF to different earthquake ground motions is investigated by subjecting the CBF to eight ground motions that have been scaled to have similar displacement response spectra. The comparative assessments presented in this work indicate that these developed numerical models can accurately capture the salient features related to the seismic behaviour of CBFs. A good agreement is found between the performance of the numerical and physical models in terms of maximum displacement, base shear force, energy dissipated and the equivalent viscous damping. The energy dissipated and, more particular, the equivalent viscous damping, are important parameters required when developing an accurate displacement‐based design methodology for CBFs subjected to earthquake loading. In this study, a relatively good prediction of the equivalent viscous damping is obtained from the numerical model when compared with data measured during the shake table tests. However, it was found that already established equations to determine the equivalent viscous damping of CBFs may give closer values to those obtained from the physical tests. Copyright © 2012 John Wiley & Sons, Ltd.  相似文献   

Mechanisms to limit higher mode effects in a controlled rocking steel frame. 1: Concept,modelling, and low‐amplitude shake table testing     

Lydell Wiebe  Constantin Christopoulos  Robert Tremblay  Martin Leclerc 《地震工程与结构动力学》2013,42(7):1053-1068

Controlled rocking steel frames have been proposed as an efficient way to avoid the structural damage and residual deformations that are expected in conventional seismic force resisting systems. Although the base rocking response is intended to limit the force demands, higher mode effects can amplify member design forces, reducing the viability of the system. This paper suggests that seismic forces may be limited more effectively by providing multiple force‐limiting mechanisms. Two techniques are proposed: detailing one or more rocking joints above the base rocking joint and providing a self‐centring energy dissipative (SCED) brace at one or more levels. These concepts are applied to the design of an eight‐storey prototype structure and a shake table model at 30% scale. A simple numerical model that was used as a design tool is in good agreement with frequency characterization and low‐amplitude seismic tests of the shake table model, particularly when multiple force‐limiting mechanisms are active. These results suggest that the proposed mechanisms can enable better capacity design by reducing the variability of peak seismic force demands without causing excessive displacements. Similar results are expected for other systems that rely on a single location of concentrated nonlinearity to limit peak seismic loads. Copyright © 2012 John Wiley & Sons, Ltd.  相似文献   

近断层地震下楼层竖向加速度影响因素分析          下载免费PDF全文

戴靠山  钱雨凡  王健泽 《世界地震工程》2021,(2):192-202

现阶段基于性能的抗震设计思想不仅关注结构自身体系的安全,而且保护非结构构件在地震作用下使用功能完好。对于工业建筑结构,生产设备在地震作用下受损会影响震后功能恢复。加速度敏感型非结构构件一般采用楼层加速度指标来量化其地震损伤程度。以三个不同高度的钢抗弯框架规则结构体系为研究对象,采用与竖向目标谱匹配的近断层非脉冲和脉冲地震动作为竖向地震输入,考察不同质量不规则程度下,楼层竖向绝对加速度随建筑高度的变化趋势,并从反应谱角度分析不规则质量分布对楼层加速度响应的影响。结果表明:4层结构在非脉冲地震作用下楼层顶层处竖向绝对加速度是地面竖向峰值加速度的5倍之多,某一层质量的突变会引起该层及其他楼层竖向绝对加速度的明显变化。另外,对现有计算楼层竖向加速度响应的经验公式进行验证,发现美国ASCE 7-16规范的估计结果偏于保守。  相似文献   

漾濞6.4级地震穿斗木房屋震害特征及其原因简析          下载免费PDF全文

杜轲    高嘉伟    温卫平  林均岐   《世界地震工程》2021,(4):038-45

基于漾濞6.4级地震现场震害调查的结果,简要介绍了穿斗木构架民居的结构布置形式,对穿斗木结构的破坏现象进行分类和归纳,并得出穿斗木结构的整体破坏程度重于砌体结构与混凝土框架结构的结论。对比芦山7.0级地震中穿斗木结构震害较砌体结构和混凝土框架结构轻的现象,从地震动差异及围护墙差异两个方面给出了初步解释。结合现有的研究成果,对穿斗木结构的改进与加固提出了建议。  相似文献   

一种无人机视频帧自动拼接方法   总被引：1，自引：0，他引：1  

刘善磊  王光辉  石善球  李斌 《测绘科学》2013,38(5):69-71

无人机视频帧具有低对比度和色彩可读性差等缺点,为了解决这些问题并从视频中自动获取视频帧,本文提出一种无人机视频帧自动拼接方法。首先介绍相位相关理论,并推导出指定重叠度视频帧提取公式,在此基础上进行指定重叠度视频帧的自动提取;最后利用改进的SURF算法完成视频帧的匹配和拼接。实验结果表明本文采用的方法能实现视频帧的自动提取和快速拼接。  相似文献   

注胶修复RC框架结构模型振动台试验与分析     

余江滔  张远淼  陆洲导  陶磊 《地震工程与工程振动》2013,33(4)

一栋相似比为1/4的8层双跨混凝土框架经初次振动台试验,发生初次震损后,采用环氧树脂注胶修复技术对框架损伤区域的裂缝进行修复,然后再次进行振动台试验.针对两次振动台的试验结果,本文着重从模型破坏情况、结构最大反应、楼层剪力、楼层抗侧刚度及滞回耗能等方面综合比较混凝土框架模型在初次振动台试验、再次振动台试验中抗震性能,以此评价高强胶黏剂修复技术修复混凝土框架结构的有效性.结果表明:经过修复,框架模型的顶层最大相对位移和层间位移角减小;修复模型的抗侧刚度要大于初始模型;修复后,框架模型由节点区破坏(梁柱交界面)转移到梁端塑性铰破坏,破坏模式的改变使得滞回耗能总量增大.可以认为,本文采用的方法对框架结构的地震损伤修复具有较好的效果.  相似文献   

Pushover analysis of reinforced concrete frames considering shear failure at beam-column joints     

Y.C.Sung  T.K.Lin  C.C.Hsiao  M.C.Lai 《地震工程与工程振动(英文版)》2013,12(3):373-383

Since most current seismic capacity evaluations of reinforced concrete(RC) frame structures are implemented by either static pushover analysis(PA) or dynamic time history analysis,with diverse settings of the plastic hinges(PHs) on such main structural components as columns,beams and walls,the complex behavior of shear failure at beam-column joints(BCJs) during major earthquakes is commonly neglected.This study proposes new nonlinear PA procedures that consider shear failure at BCJs and seek to assess the actual damage to RC structures.Based on the specifications of FEMA-356,a simplified joint model composed of two nonlinear cross struts placed diagonally over the location of the plastic hinge is established,allowing a sophisticated PA to be performed.To verify the validity of this method,the analytical results for the capacity curves and the failure mechanism derived from three different full-size RC frames are compared with the experimental measurements.By considering shear failure at BCJs,the proposed nonlinear analytical procedures can be used to estimate the structural behavior of RC frames,including seismic capacity and the progressive failure sequence of joints,in a precise and effective manner.  相似文献   

Comparative efficiency analysis of different nonlinear modelling strategies to simulate the biaxial response of RC columns     

Hugo Rodrigues  Humberto Varum  António Arède  Anibal Costa 《地震工程与工程振动(英文版)》2012,11(4):553-566

The performance of different nonlinear modelling strategies to simulate the response of RC columns subjected to axial load combined with cyclic biaxial horizontal loading is compared. The models studied are classified into two categories according to the nonlinearity distribution assumed in the elements: lumped-plasticity and distributed inelasticity. For this study, results of tests on 24 columns subjected to cyclic uniaxial and biaxial lateral displacements were numerically reproduced. The analyses show that the global envelope response is satisfactorily represented with the three modelling strategies, but significant differences were found in the strength degradation for higher drift demands and energy dissipation.  相似文献   

Seismic reliability of steel moment resisting framed buildings retrofitted with buckling restrained braces     

Esra Mete Güneyisi 《地震工程与结构动力学》2012,41(5):853-874

The present paper investigates the seismic reliability of the application of buckling restrained braces (BRBs) for seismic retrofitting of steel moment resisting framed buildings through fragility analysis. Samples of regular three‐storey and eight‐storey steel moment resisting frames were designed with lateral stiffness insufficient to comply with the code drift limitations imposed for steel moment resisting frame systems in earthquake‐prone regions. The frames were then retrofitted with concentrically chevron conventional braces and BRBs. To obtain robust estimators of the seismic reliability, a database including a wide range of natural earthquake ground motion records with markedly different characteristics was used in the fragility analysis. Nonlinear time history analyses were utilized to analyze the structures subjected to these earthquake records. The improvement of seismic reliability achieved through the use of conventional braces and BRBs was evaluated by comparing the fragility curves of the three‐storey and eight‐storey model frames before and after retrofits, considering the probabilities of four distinct damage states. Moreover, the feasibility of mitigating the seismic response of moment resisting steel structures by using conventional braces and BRBs was determined through seismic risk analysis. The results obtained indicate that both conventional braces and especially BRBs improve significantly the seismic behavior of the original building by increasing the median values of the structural fragility curves and reducing the probabilities of exceedance of each damage state. Copyright © 2011 John Wiley & Sons, Ltd.  相似文献