考虑功能性要求的基础隔震结构优化设计方法*
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潘鹏1, 王飞1, 曹海韵1, 王涛2(1 清华大学土木工程系,北京 100084;2 中国地震局工程力学研究所,三河 065201)[摘要] 以一个典型混凝土框架结构模型为例,通过非线性时程分析方法,进行了隔震层的优化设计。研究了普通叠层橡胶支座和粘滞阻尼器组合使用时的优化配比、单独使用铅芯叠层橡胶支座时的优化铅芯含量,以及铅芯橡胶支座和粘滞阻尼器组合使用时的优化配比。提出了考虑功能性要求的基础隔震结构优化设计方法。[关键词] 基础隔震;功能性要求;粘滞阻尼器;时程分析;优化设计中图分类号:TU352-1 文献标识码:A 文章编号:1002-848X(2012)12-0049-05Optimum design of base-isolation buildings considering functionalityPan Peng1, Wang Fei1, Cao Haiyun1, Wang Tao2(1 Department of Civil Engineering, Tsinghua University, Beijing 100084, China; 2 Institute of Engineering Mechanics, China Earthquake Administration, Sanhe 065201, China)Abstract: A typical RC frame is adopted to study the optimum design of the isolator layer through nonlinear time-history analysis. The optimum proportion of natural rubber bearing and viscous damper, the optimum volume of lead damper in the isolation layer, and the optimum proportion of lead damper and viscous damper were discussed. A new design method considering functionality of the base-isolation buildings was proposed.Keywords: base-isolation; functionality; viscous damper; time-history analysis; optimum design*清华大学自主科研项目(201007214),北京市教委科技计划重点项目(KZ201110005009),北京市自然科学基金B类项目。作者简介:潘鹏,副教授,博士生导师,Email:panpeng@tsinghua.edu.cn.参考文献[1] 田洁,张俊发,刘云贺,等. 铅芯橡胶支座基础隔震体系参数优化配置研究[J].世界地震工程,2003,19(1):159-163.[2] 李淑文.复杂隔震结构地震反应分析与橡胶垫布置优化 [D]. 北京:北京理工大学,2007.[3] JANGID R S. Optimum lead\|rubber isolation bearings for nearfault motions[J]. Engineering Structures, 2007,29(10): 2503-2513.[4] PEI CHIUNG HUANG, SHIUAN WAN, JIA YIH YEN. A novel method of searching appropriate ranges of base isolation design parameters through entropy-based classification[J]. Structural Control and Health Monitoring 2009,16(4): 385-405.[5] 魏陆顺,周福霖 ,刘文光. 广州大学城应用组合基础隔震技术[J]. 建设科技,2005(2):30-31.[6] 末冈利之,鸟井信吾,常木康弘. 东京汐留住友大厦的中间层隔震结构设计[J]. 建筑钢结构进展,2008,10(3):36-41.[7] 杜永峰,赵国藩. 隔震结构中非经典阻尼影响及最佳阻尼分析[J]. 地震工程与工程振动,2000,20(3):100-107.
