[1]宋晓,谭平,周福霖,等.基础隔震结构高宽比限值研究[J].地震工程与工程振动,2017,01(6):043-51.[doi:10.13197/j.eeev.2017.06.43.songx.005]
 SONG Xiao,TAN Ping,ZHOU Fulin,et al.Research on the limit value of height-width ratio of base-isolated structures[J].EARTHQUAKE ENGINEERING AND ENGINEERING DYNAMICS,2017,01(6):043-51.[doi:10.13197/j.eeev.2017.06.43.songx.005]
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基础隔震结构高宽比限值研究
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《地震工程与工程振动》[ISSN:/CN:]

卷:
01
期数:
2017年6
页码:
043-51
栏目:
论文
出版日期:
2017-12-31

文章信息/Info

Title:
Research on the limit value of height-width ratio of base-isolated structures
作者:
宋晓 谭平 周福霖 滕晓飞
广州大学 工程抗震研究中心, 广东 广州 510405
Author(s):
SONG Xiao TAN Ping ZHOU Fulin TENG Xiaofei
Earthquake Engineering Research & Test Center, Guangzhou University, Guangzhou 510405, China
关键词:
基础隔震结构Timoshenko高宽比限值竖向刚度倾覆破坏
Keywords:
base-isolated structureTimoshenko beamthe limit value of height-width ratiovertical stiffnessoverturning damage
分类号:
TU352.1
DOI:
10.13197/j.eeev.2017.06.43.songx.005
摘要:
根据结构变形特点,提出基于Timoshenko理论的基础隔震分布参数体系模型,推导隔震结构高宽比限值计算公式,分析各参数对隔震结构高宽比限值的影响规律。分析表明,隔震结构和非隔震结构基本周期比值在一定范围内变化时,剪力系数、弯矩系数与周期比呈稳定曲线关系;高宽比限值随结构宽度方向布置支座个数增加而降低;在隔震支座总面积确定时,选择大直径隔震支座大间距布置方式可提高隔震层变形能力及高宽比限值;高宽比限值受竖向地震作用影响较小,随竖向地震系数增大高宽比限值略有降低;降低隔震层刚度、增大隔震层阻尼可提高结构高宽比限值;容许支座出现拉应力可在一定程度上提高结构高宽比限值。最后结合20层框剪结构工程算例,验证隔震结构高宽比限值公式的有效性。
Abstract:
According to the deformation characteristics of high-rise building, the equivalent continuous model was proposed based on Timoshenko theory. The dynamic properties of continuous structure subjected to random loads were studied. The overturning resistant performance and the limit of height-width ratio are analyzed for base-isolated structures. Based on dynamic characteristics of structure, the base-isolated cantilever Timoshenko beam was investigated in this study as the simplified mode of regular structures. Vibration feature were derived from Timoshenko theory, and earthquake responses were calculated with the mode decomposition response spectrum method. The formula for calculating limit value of the height-width ratio of isolated structure was deduced, and the influence of different parameters on the limit value of the height-width ratio was analyzed. The analysis indicated that shear force and moment coefficients and periodic ratio showed a stable curve when the basic period of isolation structure and seismic structure ratio changes within a certain range. The limit value of height-width decreased with the increase of the bearing number of end span. The limit value of height-width ratio was less affected by vertical earthquake, the ratio decreased slightly with the increase of vertical seismic coefficient. Reducing the stiffness of isolation layer and increasing the damping of isolation layer can increase the limit value of height-width ratio. The limit value of height-width ratio of isolated structure can be improved considering the tensile stress of bearings. Finally, the validity of limit value formula of height-width ratio of the isolated structure was indicated by the example of the 20 story frame shear structure engineering.

参考文献/References:

[1] 武田寿一. 建筑物隔震防振与控振[M]. 北京:中国建筑工业出版社, 1997. Takeda Junichi. The isolation, anti-vibration and vibration-control of buildings[M]. Beijing:China Construction Industry Press, 1997. (in Chinese)
[2] 諏訪仁, 野畑有秀, 関松太郎. 積層ゴム支承の軸挙動を考慮した高層免震建物の地震応答特性に関する研究[J]. 大林組技術研究所報, 1999(58):19-26. Hitoshi Suwa, Arihide Nobata, Matsutaro Seki. A study on dynamic characteristics of base isolated high-rise structure with axial behavior of laminated rubber bearings[J]. Ohbayashi-Gumi Research Institute Report, 1999(58):19-26.(in Japanese)
[3] 李宏男, 吴香香. 橡胶垫隔震支座结构高宽比限值研究[J]. 建筑结构学报, 2003, 24(2):14-19. LI Hongnan, WU Xiangxiang. Study on limit of height-to-width for base-isolated building with rubber bearing under earthquake[J]. Journal of Building Structures, 2003, 24(2):14-19. (in Chinese)
[4] 祁皑, 范宏伟. 基于结构设计的基础隔震结构高宽比限值的研究[J]. 土木工程学报, 2007, 40(4):13-20. Qi Ai, FAN Hongwei. A structural design study on the limit of height-width ratio of base-isolated structures[J]. China Civil Engineering Journal, 2007, 40(4):13-20. (in Chinese)
[5] 何文福, 刘文光, 张颖,等. 高层隔震结构地震反应振动台试验分析[J]. 振动与冲击, 2008(8):97-101. HE Wenfu, LIU Wenguang, ZHANG Ying, et al. Experimental study on high-rise isolated structure[J]. Journal of Vibration and Shock, 2008(8):97-101.
[6] Timoshenko S P, Young D H, Weaver W J. Vibration problem in engineering[J]. Mechanical Engineering, 1990, 47(8):100.
[7] Rensburg N F J V, Merwe A J V D. Natural frequencies and modes of a Timoshenko beam[J]. Wave Motion, 2006, 44(1):58-69.
[8] 北村春幸. 基于性能设计的建筑振动解析[M]. 西安:西安交通大学出版社, 2004. Kitamura Harumiyuki. Seismic response analysis methods for performance based design[M]. Xi’anXian Jiao Tong University press Co., LTD, 2004. (in Chinese)
[9] R.克拉夫、J.彭津(美). 结构动力学(第2版) (修订版)[M]. 北京:高等教育出版社, 2006. R.W.Clough, J.Penzien,Structural dynamics[M]. Beijing:China Higher Education Press, 2006. (in Chinese)
[10] 周福霖, 工程结构减震控制[M]. 北京:地震出版社, 1997. ZHOU Fulin. Seismic control in engineering structures[M]. Beijing:Earthquake Publishing House, 1997:38. (in Chinese)
[11] 闫维明, 张志谦, 陈适才,等. 橡胶隔震支座拉伸刚度理论模型与分析[J]. 工程力学, 2014(2):184-189. YAN Weiming, ZHANG Zhiqian, CHEN Shicai, et al. Modeling and analyzing of tensile stiffness for seismic isolated rubber bearings[J]. Engineering Mechanics, 2014, 31(2):184-189. (in Chinese)

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备注/Memo

备注/Memo:
收稿日期:2016-10-20;改回日期:2017-02-05。
基金项目:长江学者和创新团队发展计划项目(IRT13057);国家自然科学基金项目(51478129)
作者简介:宋晓(1982-),女,博士研究生,主要从事结构隔震减震研究.E-mail:songxiao@henu.edu.cn
通讯作者:谭平(1973-),男,研究员,博士,主要从事结构隔震与减震控制研究.E-mail:ptan@gzhu.edu.cn
更新日期/Last Update: 1900-01-01