竖向刚度不规则高层框架结构推覆分析方法
详细信息 本馆镜像全文    |  推荐本文 | | 获取馆网全文
摘要
为研究侧向荷载模式和目标位移计算对不同类型竖向刚度不规则结构推覆分析结果的影响,建立竖向刚度不规则结构推覆分析方法。选择一栋12层的钢筋混凝土框架结构作为标准模型,通过对其刚度进行调整,建立4种常见的竖向刚度不规则形式的结构计算模型。采用5种固定侧向荷载模式和4种目标位移计算方法,分别对4种不同形式的竖向刚度不规则结构进行推覆分析,并与弹塑性时程分析结果进行比较分析。研究结果表明,在预测目标位移和层间位移上,侧向荷载模式和目标位移计算方法的选择对计算结果有较大影响,对不同的竖向刚度不规则结构应根据其不规则形式。给出竖向刚度不规则形式所对应的侧向荷载模式和目标位移计算方法合理选择表,其中侧向荷载模式三角分布ITR和能力谱方法(Cap S)在计算竖向刚度不规则结构层位移和层间位移计算具有较好的通用性和实用性。研究成果可为竖向刚度不规则高层建筑结构抗震性能评估提供参考。
Pushover analysis of the vertically stiffness-irregular high-rise structures was established to investigate the influence of lateral-load mode and target-displacement calculation method on the calculated results of pushover analysis.A 12-storey RC frame was selected as the standard model, based on which the calculation models of four patterns of vertically stiffness-irregular structures were obtained by adjusting the stiffness. Pushover analysis was conducted by using five fixed lateral-load modes and four target-displacement calculation methods, and the calculated results were compared with elastic-plastic time history analysis. The results show that the selection of lateral-load mode and target-displacement calculation method significantly influences the predicting target-displacement and storey drift, and should be chosen according to irregular-pattern. The lateral-load mode with regard to vertically stiffness-irregular pattern and reasonable option list with regard to target-displacement calculation method can be obtained, and triangular distribution of lateral-load mode(ITR) and Capacity spectrum method(Cap S) have better popularity and practicability in calculating storey drift. The results can be the reference for seismic estimation of vertically stiffness-irregular high-rise structures.
引文
[1]郭子雄.基于变形的抗震设计理论及应用研究[D].上海:同济大学土木工程学院,2000:10-55.GUO Zixiong.Study on deformation-based seismic design theory with application[D].Shanghai:Tongji University.School of Civil Engineering,2000:10-55.
    [2]杜培龙.竖向不规则结构弹塑性地震反应简化分析方法的研究[D].泉州:华侨大学土木工程学院,2005:10-75.DU Peilong.Study on simplified analysis method of nonlinear seismic response of structures with vertical irregularity[D].Quanzhou:Huaqiao University.School of Civil Engineering,2005:10-75.
    [3]吴毅彬,杜培龙,郭子雄.一种改进的结构推覆分析目标位移计算方法[J].华侨大学学报(自然科学版),2007,28(2):188-191.WU Yibin,DU Peilong,GUO Zixiong.An improved method for calculating the target displacement of pushover analysis[J].Journal of Huaqiao University(Natural Science),2007,28(2):188-191.
    [4]沈蒲生,龚胡广.多模态静力推覆分析及其在高层混合结构体系抗震评估中的应用[J].工程力学,2006,23(8):69-74.SHEN Pusheng,GONG Huguang.Multi-mode pushover analysis and seismic evaluation in hybrid structures[J].Engineering Mechanics,2006,23(8):69-74.
    [5]Chintanapakdee C,Chopra A K.Seismic response of vertically irregular frames:response history and modal pushover analyses[J].Journal of Structural Engineering,2004,130(8):1177-1185.
    [6]Mwafy A A,Elnashai A S.Static pushover versus dynamic collapse analysis of RC frames[J].Engineering Structures,2001,23(5):407-424.
    [7]门进杰,史庆轩,周琦.平面不规则混凝土框架结构非线性静力分析侧向力计算方法的研究[J].世界地震工程,2007,23(1):125-129.MEN Jinjie,SHI Qingxuan,ZHOU Qi.Research on lateral load distribution method for asymmetric frame structures in nonlinear static analysis[J].World Earthquake Engineering 2007,23(1):125-129.
    [8]Kunnath S K.Identification of modal combinations for nonlinear static analysis of building structures[J].Computer-aided Civil and Infrastructure Engineering,2004,19(4):246-259.
    [9]Kalkan E,Kunnath S K.Adaptive modal combination procedure for nonlinear static analysis of building structures[J].Journal of Structural Engineering,2006,132(11):1721-1731.
    [10]Kalkan E,Kunnath S K.Lateral load distribution in nonlinear static procedures for seismic design[C]//Proceedings of the 2004Structures Congress.Nashville,Tennessee,2004:22-26.
    [11]Chopra A K,Goel R K.A modal pushover analysis procedure for estimating seismic demands for buildings[J].Earthquake Engineering and Structural Dynamics,2002,31(3):561-582.

版权所有:© 2023 中国地质图书馆 中国地质调查局地学文献中心