（1 华南理工大学土木与交通学院，广州 510640； 2 华南理工大学亚热带建筑科学国家重点实验室，广州 510640）

［摘要］基于纤维模型理论，利用PERFORM-3D软件实现了复杂超高层建筑结构的弹塑性时程分析并进行构件变形性能评估。针对PERFORM-3D建立高层结构模型的复杂性，开发了其前处理程序ETP，使之能够方便准确地建立弹塑性模型。分析表明，基于纤维模型的整体结构弹塑性分析法高效可行，不但宏观上可得到结构整体响应，而且微观上可得到构件的内力及变形和纤维的应力及应变。通过工程实例，得到整体结构响应、构件的变形及结构能量耗散情况，可用于研究按我国现行规范设计的超高层混凝土结构在罕遇地震作用下的非线性变形及受力特点。

［关键词］弹塑性时程分析；PERFORM-3D；超高层结构；基于性能

Elasto-plastic time-history analysis of super high-rise RC structure based on fiber model

Han Xiaolei^1,2, Chen Xuewei¹, Lin Shengyi¹, He Weiqiu¹, Jack Cheang¹, Wu Peifeng¹, Mao Guiniu¹ (1 School of Civil Engineering and Transportation, South China University of Technology, Guangzhou 510640, China; 2 Key Laboratory of Subtropic Architecture Ministry of Education, South China University of Technology, Guangzhou 510640, China)

Abstract:Elasto-plastic time-history analysis and component deformation performance evaluation of complex super high-rise building structure can be realized by the program PERFORM-3D based on the theory of fiber model. In order to reduce the complexity of tall building structure modeling, a pre-processing program named ETP was proposed. The research showed that elasto-plastic analysis of the whole structure based on fiber model was an efficient and successful method. In macro sense, the response of the whole structure can be gained. And in micro sense, component internal force and deformation as well as the stress and strain of the fiber can be gained. Combining with an engineering example, the results of the whole structure response, component deformation and energy dissipation can be used for the research of the elasto-plastic deformation and stress characteristics of the super high-rise building structure designed according to current codes under rare earthquake.

Keywords:elasto-plastic time-history analysis; PERFORM-3D; super high-rise building structure; performance-based

作者简介：韩小雷，博士，教授，博士生导师，Email:xlhan@scut.edu.cn。

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