高烈度区某框架-核心筒结构耗能减震控制研究*
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裘赵云,缪志伟,李爱群(东南大学混凝土及预应力混凝土结构教育部重点实验室, 南京 210096)[摘要]针对位于高烈度区的某高层建筑,采用高层结构减震控制理论,选取非线性粘滞流体阻尼器耗能装置对结构进行减震控制。首先基于通用有限元分析软件平台建立了三维结构弹塑性分析模型,然后分别对多条地震波输入下减震前后结构的动力响应进行了弹塑性时程分析,并从力、变形和能量三大指标方面对减震前后的结构在多遇和罕遇地震作用下的地震响应结果进行了对比分析。结果表明:采用非线性粘滞流体阻尼器减震方案可以提高结构的整体抗震性能,起到良好的减震效果。[关键词]减震控制;框架-核心筒;粘滞流体阻尼器;弹塑性时程分析中图分类号:TU398+.2 文献标识码:A 文章编号:1002-848X(2013)01-0005-05Study on energy dissipation and damping control of a frame-tube structure in high seismic intensity regionQiu Zhaoyun, Miao Zhiwei, Li Aiqun(Key Laboratory of Concrete and Prestressed Concrete Structures of China Education Ministry, Southeast University, Nanjing 210096, China)Abstract: Based on the structural control theory, nonlinear viscous dampers were used in a high rise building in high seismic intensity region to reduce the structural responses under strong earthquakes. Firstly, the 3D finite element model of the structure was established by general finite element software. Then, the nonlinear analysis program was compiled to calculate the seismic responses of the structure after inputting several earthquake waves. The dynamic response of the uncontrolled structure and controlled structure were investigated under the excitation of minor and major earthquake from three aspects of force, displacement and energy. The analysis result indicates that using viscous dampers can effectively improve the structural seismic performance.Keywords: vibration control; frame-tube structure; viscous damper; nonlinear time history analysis*国家自然科学基金青年项目(51008078), 东南大学新进博士科研启动项目(9205000030), 东南大学基本科研业务费创新基金项目(104.205.2.5)通讯作者:缪志伟,博士,讲师,Email:zhiweim@gmail.com。参考文献[1]徐卫宾.钢筋混凝土摩擦耗能支撑框架-核心筒结构的工程应用研究[D]. 昆明:昆明理工大学,2008.[2]GB 50011-2010 建筑抗震设计规范[S]. 北京:中国建筑工业出版社,2010.[3]欧进萍.土木工程结构振动的智能控制研究与发展[C]//国际结构控制与健康诊断研讨会论文集. 2000.[4]叶列平, 陆新征, 马千里, 等. 混凝土结构抗震非线性分析模型、方法及算例[J].工程力学,2006,23(S2): 131-140.[5]CHIA-MING UANG, BETREO VITELMO V. Use of energy as a design criterion in earthquakeresistant design[R]. Report No. UCB/EERC-88/18. Earthquake Engineering Research Center, University of Califrnia, Berkeley, 1998.[6]陆新征,叶列平,缪志伟,等.建筑抗震弹塑性分析[M].北京:中国建筑工业出版社,2009.[7]林旭川,陆新征,缪志伟,等.基于分层壳单元的RC 核心筒三维全过程有限元分析[C]//第十一届高层建筑抗震技术交流会论文集.昆明, 2007: 184-189.[8]MARC. User's manual[M]. MSC. Software Corporation, 2003.
