Seismic performance analysis of PC base-isolated double-tower structure with a large base floor under extremely rare earthquake

Abstract

Abstract: In order to study the seismic performance of PC base-isolated double-tower structure with a large base-floor under extremely rare earthquakes, the software ANSYS was used to carry out the finite element analysis of PC and RC base-isolated double-tower structure with a large base-floor. The floor displacement, base-floor stress distribution, other dynamic responses, and energy dissipation of the above two structures under rare and extremely rare earthquakes were compared and analyzed.The results show that compared with the RC structure, the natural vibration period and floor displacement response of the PC structure increase, while the top floor acceleration decreases. The plastic energy dissipation of the superstructure increases, and the damage is serious. Under the extremely rare earthquake, the isolation layer deformation of the two structures increases significantly, while the energy dissipation capacity decreases relatively, and the proportion of energy absorbed by the superstructure increases. Therefore, it is suggested that isolation bearing with a larger diameter should be considered in the isolation design as far as this situation is concerned. Under the extremely rare earthquake, the peak stress at the connection position of the two towers and the large base plate significantly increases, so corresponding strengthening measures should be taken in the design of the connection position of the towers.

Key words: precast structure, base isolation, multi-tower structure with a large base floor, extremely rare earthquake, seismic behavior

CLC Number:

TU375

DU Yong-feng, ZHOU Dong-lei, LI Hu, CHI Pei-hong. Seismic performance analysis of PC base-isolated double-tower structure with a large base floor under extremely rare earthquake[J]. Journal of Lanzhou University of Technology, 2023, 49(1): 110-118.

References

[1] 王俊,赵基达,胡宗羽.我国建筑工业化发展现状与思考 [J].土木工程学报,2016,49(5):1-8.
[2] 吴刚,冯德成.装配式混凝土框架节点基本性能研究进展 [J].建筑结构学报,2018,39(2):1-16.
[3] ERTAS O,OZDEN S,OZTURAN T.Ductile connections in precast concrete moment resisting frames [J].PCI Journal,2006,51(3):66-76.
[4] PARASTESH H,HAJIRASOULIHA I,RAMEZANI R.A new ductile moment-resisting connection for precast concrete frames in seismic regions:an experimental investigation [J].Engineering Structures,2014,70(9):144-157.
[5] 董挺峰,李振宝,周锡元.装配式混凝土框架结构及其抗震性能研究 [J].建筑技术,2006,37(11):844-847.
[6] KOMURO T,NISHIKAWA Y,KIMURA Y,et al.Development and realization of base isolation system for high-rise buildings [J].Journal of Advanced Concrete Technology,2005,3(2):233-239.
[7] 杜永峰,朱翔,陆新征,等.超长复杂隔震结构抗连续倒塌性能分析 [J].土木工程学报,2016,49(增刊1):90-95.
[8] 李慧,张志公,杜永峰.大底盘多塔楼结构基础隔震非线性时程分析 [J].兰州理工大学学报,2007,33(1):116-120.
[9] FUJITA T,FUJITA S,TAZAKI S,et al.Research,development and implementation of rubber bearings for seismic isolation [J].JSME International Journal,1990,33(3):394-403.
[10] 谭平,匡珍,卫杰斌,等.装配式隔震节点的试验研究与分析 [J].广州大学学报(自然科学版),2013,12(4):32-37.
[11] 卫杰彬,谭平,匡珍,等.高层装配式层间隔震结构的抗震性能及破坏失效模式研究 [J].土木工程学报,2012,45(增刊1):171-176.
[12] 王维,李爱群,贾洪,等.预制混凝土剪力墙隔震结构振动台试验研究 [J].建筑结构学报,2015,36(6):35-43.
[13] 中国地震局.中国地震动参数区划图 GB18306—2015 [S].北京:中国标准出版社,2015.
[14] 池佩红.PC隔震框架预制单元拆分及整体结构地震损伤分析 [D].兰州:兰州理工大学,2019.
[15] 钱稼茹,胡妤,赵作周,等.装配整体式连梁抗震性能试验研究 [J].土木工程学报,2014(9):9-20.
[16] 刘劲松.预制装配式钢筋混凝土框架节点抗震性能分析 [D].哈尔滨:哈尔滨工业大学,2009.
[17] 刘健.新老混凝土粘结的力学性能研究 [D].大连:大连理工大学,2000.
[18] 项萌.预制装配式剪力墙竖向接缝连接性能有限元分析 [D].郑州:郑州大学,2014.
[19] 张锐.装配整体式混凝土框架结构受力性能试验与有限元分析 [D].长沙:湖南大学,2015.
[20] 中华人民共和国住房和城乡建设部.混凝土结构设计规范:GB 50010-2010 [S].北京:中国建筑工业出版社,2015.
[21] HWANG J S,SHENG L H,GATES J H.Practical analysis of bridges on isolation bearings with bi-linear hysteresis characteristics [J].Earthquake Spectra,1994,10(4):705-727.
[22] 党育,杜永峰.不对称大底板多塔楼隔震结构的地震响应分析 [J].防灾减灾工程学报,2012,32(4):452-458.
[23] 李慧,时晨,杜永峰.双向水平地震激励下大底板多塔楼隔震结构底板内力分析 [J].工程抗震与加固改造,2012,34(6):45-49,54
[24] 中华人民共和国住房和城乡建设部.建筑抗震设计规范:GB 50011-2010 [S].北京:中国建筑工业出版社,2016.