复杂体型高层结构的推覆分析方法和应用

本文对钢筋混凝土高层结构进行了推覆分析研究，并编制了相应的推覆分析计算机程序。为了满足复杂体型高层结构的需要，提出了多种类型的单元，包括梁柱单元、单片墙单元、三垂直杆墙元和简体墙单元，与试验结果对比分析表明这些模型具有很好的精度，并且能够搜索到结构反应的全过程，甚至结构的软化阶段。最后对一栋具有复杂体型的高层结构实际工程进行了推覆分析研究，为结构设计提供了实用的参考依据。     

建筑结构抗震能力评估技术的研究及应用

简要介绍影响建筑结构抗震能力的主要因素，重点评述目前建筑结构抗震能力评估的主要技术方法并指出其存在的问题，展望今后抗震能力评估技术的应用及发展趋势。     

钢筋混凝土圆形截面柱式桥墩抗震性能评价

对4座典型的钢筋混凝土圆形截面双柱式桥墩，利用Priestley等建议的钢筋混凝土桥墩抗剪强度计算方法和型态描述方程，结合Rush-over方法进行了延性抗震能力评价。一般说来，纵桥向能够满足延性抗震要求，而横桥向一些配箍率较低的桥墩在地震中会发生脆性的弯剪破坏，其底部塑性铰将形成在柱基之中，部分桩基可能会遭受损害。     

不同柱梁抗弯承载力比对框架结构抗倒塌性能的影响

设计不同柱梁抗弯承载力比(ηc-bua)的5个纤维增强混凝土(FRC)框架结构及3个钢筋混凝土(RC)框架结构,利用性能评估软件Perform-3D进行Pushover及IDA计算分析,得出其破坏机制及易损性曲线。结果表明,柱、梁端部局部采用FRC后,承载力有一定提高,峰值位移有较大提高;ηc-bua对FRC框架结构的破坏机制影响很大;ηc-bua对FRC框架结构地震反应也有一定的影响,其比值越大,超越概率越小,且随期望破坏程度的加重,这种影响也趋于明显,当ηc-bua在1.2以上时,结构的倒塌概率均小于10%,满足大震不倒的概率要求。     

SIMPLE PUSH-OVER ANALYSIS OF ASYMMETRIC BUILDINGS

A simple method for the non-linear static analysis of complex building structures subjected to monotonically increasing horizontal loading (push-over analysis) is presented. The method is designed to be a part of new methodologies for the seismic design and evaluation of structures. It is based on the extension of a pseudo-three-dimensional mathematical model of a building structure into the non-linear range. The structure consists of planar macroelements. For each planar macroelement, a simple bilinear or multilinear base shear–top displacement relationship is assumed. By a step-by-step analysis an approximate relationship between the global base shear and top displacement is computed. During the analysis the development of plastic hinges throughout the building can be monitored. The method has been implemented into a prototype computer program. In the paper the mathematical model, the base shear–top displacement relationships for different types of macroelements, and the step-by-step computational procedure are described. The method has been applied for the analysis of a symmetric and an asymmetric variant of a seven-storey reinforced concrete frame–wall building, as well as for the analysis of a complex asymmetric 21-storey reinforced concrete wall building. The influence of torsion on structural behaviour is discussed. © 1997 by John Wiley & Sons, Ltd.     

IMS体系抗震性能研究的Push-over方法

应用三维有限元实体单元计算模型，通过Push-over方法对云南傣族新民居IMS体系结构进行了地震破坏历程分析，并与模型振动台试验结果进行了比较。三维实体单元Push-over方法结果能较好的反映结构破坏表象，对结构抗震性能研究具有很好的辅助作用。     

Vulnerability of reinforced concrete frames in low seismic region,when designed according to BS 8110

The overstrength and ductility due to redistribution of internal forces are being investigated for three bay multi-storey reinforced concrete plane frames, using non-linear push-over analysis. These frames are designed to resist gravity loads, wind loads and a notional horizontal load in accordance with the British code BS 8110, which does not have any special provision for seismic loads. The results show that the overstrength factors for the three-, six- and ten-storey frames are respectively, 7·5, 5·6 and 2·2 times the design lateral loads, whereas, the ductility factors for the three frames are similar, and slightly greater than 2. These values yield a response modification factor of 18·0, 12·2 and 4·7 for the three-, six- and ten-storey frames, respectively. The effect of infill walls on the response modification factor is also being investigated, and a suitable response modification factor for assessing the vulnerability of reinforced concrete frames of about 10 storeys high is recommended. Copyright © 1999 John Wiley & Sons, Ltd.     

考虑接连两次地震影响的建筑物震害分析方法

本文通过对建筑物进行静力弹塑性分析(Push-over)和静力循环往复加载分析,分别得到两次地震作用对建筑物所造成的损伤。分析表明,考虑两次地震对建筑物的影响,累积破坏现象明显。最后给出了一个六层钢筋混凝土框架结构的算例。     

钢筋混凝土框架-剪力墙结构推覆分析

结合新建筑抗震设计规范的要求，采用自编的高层结构三维推覆分析程序(TBPOA)对某复杂体型的高层建筑框架剪力墙结构进行了三维推覆分析研究，对该结构进行了结构抗震整体性能和局部性能的评价。研究结果表明，满足小震强度设计要求并按构造要求配筋的钢筋混凝土柱，在大震作用时可能有部分构件难以满足变形要求，通过推覆分析对构件和结构的变形性能进行评估是很有必要的。     

基于能力设计原理的双肢剪力墙极限承载力研究

通过对双肢剪力墙的静力推覆分析(Push-over分析)揭示其极限状态的多种形式并提出连梁强度折减系数K,对在理想极限状态下的连梁剪力超强进行折减,得出对应于不同极限状态下连梁对墙肢轴力的改变量,可用于双肢剪力墙结构超强的整体计算,为带转换层的高层建筑转换结构的能力设计提供了理论基础。