纵向地震激励下倒Y形主塔斜拉桥的地震易损性分析
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摘要
结合我国现役大跨斜拉桥的结构特点,以III类场地上的倒Y型主塔斜拉桥为研究对象,选取20条实测地震波进行增量动力分析,同时将材料应变计算的截面曲率水平作为斜拉桥塔、墩、桩的损伤指标,据此求解斜拉桥塔、墩、基础等构件在不同地震动水平下超越不同损伤状态的概率,然后利用非线性拟合获得倒Y形主塔斜拉桥各构件地震易损性曲线,获得斜拉桥地震易损部位,损伤破坏过程的认识。研究表明:从各构件损伤的超越概率由高到低的排序上看,斜拉桥的主塔是最不易损的构件,而过渡墩桩基是最易损伤的构件;Y形主塔的易损部位主要集中在下塔底、中塔底、中塔顶三个部位。
The sample of cable-stayed bridge studied in this paper is based on the structural characteristics of cable-stayed bridges recently built in China.Excited by twenty ground motion waves belonging to III soil site type,the incremental dynamic analysis of cable-stayed bridge is made herein.The probabilities of different damage state exceedance of the main tower are studied,as well as the transition pier,auxiliary pier and the piles subjected to different ground motion level.To compare the seismic vulnerability of different components,the seismic fragility curves for different components of the sample cable-stayed bridge are developed.The research show:for upsidedown-Y-shape tower of the cable-stayed bridge,the vulnerable zones appear often on three positions,which are tower bottom,middle tower bottom,and top of the middle tower.
The sample of cable-stayed bridge studied in this paper is based on the structural characteristics of cable-stayed bridges recently built in China.Excited by twenty ground motion waves belonging to III soil site type,the incremental dynamic analysis of cable-stayed bridge is made herein.The probabilities of different damage state exceedance of the main tower are studied,as well as the transition pier,auxiliary pier and the piles subjected to different ground motion level.To compare the seismic vulnerability of different components,the seismic fragility curves for different components of the sample cable-stayed bridge are developed.The research show:for upsidedown-Y-shape tower of the cable-stayed bridge,the vulnerable zones appear often on three positions,which are tower bottom,middle tower bottom,and top of the middle tower.
引文
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[2]Pan Y,Agrawal A K,Ghosn M.Seismic fragillity of continuous steel highway bridges in New York State[J].Journal of BridgeEngineering,2007,12(6):689-699.
[3]张菊辉.基于数值模拟的规则梁桥墩柱的地震易损性分析[D].上海:同济大学土木工程学院,2006.
[4]Hwang,Huo H H M,J R.Probabilistic seismic damage assessment of highway bridges[C]//The 6th U.S.National Confer-ence on Earthquake Engineering.Washington:Seattle,1998.
[5]Karim K R,Yamazaki F.A simplified method of constructing fragility curves for highway bridges[J].Earthquake Engineeringand Structural Dynamics,2003,32:1603-1626.
[6]王宇.变墩高公路桥梁的地震易损性分析[D].上海:同济大学土木工程学院,2007.
[7]Jiao chiyu,Li jianzhong,Fan lichu.Nonlinear seismic response analysis and seismic performance evaluation of A RC cable-stayed bridge tower using IDA method[C]//the 14th World Conference on Earthquake Engineering.Beijing:[s.n.],2008:12-17.
[8]Arzoumanidis S,Shama AA,Marlow SJ,Orsolini GO.The New Tacoma Narrows Suspension Bridge:Critical Issues in SeismicAnalysis and Design[C]//Structures 2005.New York:[s.n.],2005:21-21.
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