|Table of Contents|

Influences of Central Buckles on Dynamic Behaviors of Triple-tower Suspension Bridge(PDF)

《建筑科学与工程学报》[ISSN:1673-2049/CN:61-1442/TU]

Issue:
2009年04期
Page:
49-53
Research Field:
Publishing date:
2009-12-20

Info

Title:
Influences of Central Buckles on Dynamic Behaviors of Triple-tower Suspension Bridge
Author(s):
ZOU Ke-guan WANG Hao LIANG Shu-ting
Key Laboratory of Concrete and Prestressed Concrete Structure of Ministry of Education, Southeast University, Nanjing 210096, Jiangsu, China
Keywords:
central buckle triple-tower suspension bridge dynamic behavior natural vibration characteristic vibration mode
PACS:
U448.25
DOI:
-
Abstract:
A 3-D finite element calculation model was established for Taizhou Yangtze River Bridge based on ANSYS software, and the subspace iteration method was adopted to analyze the natural vibration characteristics of the bridge, meanwhile, the influences of settings of central buckles at the mid-span of the main spans between the main cables and the main girder on the dynamic behaviors of a long-span triple-tower suspension bridge were studied. The results show that settings of central buckles have great influence on the first vertical bending vibration mode and have tremendous influence on some other vertical bending modes. Furthermore, central buckles postpone the appearance of the first torsion vibration mode as well as modes mainly consist of main cable vibration. Setting of central buckles increases frequencies of lateral bending vibration modes, and it has greater influence on those vibration modes with an antisymmetric shape in each single span than those with a symmetric shape in each single span. The research results provide a necessary information and research foundation for wind-resistant and anti-seismic research of the bridge.

References:

[1] 单宏伟,韩大章,吕立人.润扬长江公路大桥悬索桥中央扣设计[J].公路,2004(8):58-61. SHAN Hong-wei,HAN Da-zhang,LU Li-ren.Design of Center Nodes of Runyang Suspension Bridge over Yangtze River[J].Highway,2004(8):58-61.
[2]李国豪.桥梁结构稳定与振动[M].北京:中国铁道出版社,2003. LI Guo-hao.Stability and Vibration of Bridge Structure[M].Beijing:China Railway Publishing House,2003.
[3]胡建华.大跨度自锚式悬索桥结构体系及静动力性能研究[D].长沙:湖南大学,2006. HU Jian-hua.Study on Structural System and Static and Dynamic Performance of Long-span Self-anchored Suspension Bridge[D].Changsha:Hunan University,2006.
[4]KAROUMI R.Some Modeling Aspects in the Non-linear Finite Element Analysis of Cable Supported Bridges[J].Computers and Structures,1999,71(4):397-412.
[5]邓育林,彭天波,李建中,等.大跨度三塔悬索桥动力特性及抗震性能研究[J].振动与冲击,2008,27(9):105-110. DENG Yu-lin,PENG Tian-bo,LI Jian-zhong,et al.Study on Dynamic Characteristic and Aseismic Performance of a Long-span Triple-tower Suspension Bridge[J].Journal of Vibration and Shock,2008,27(9):105-110.
[6]杨孟刚,陈政清.基于UL列式的两节点悬链线索元非线性有限元分析[J].土木工程学报,2003,36(8):63-68. YANG Meng-gang,CHEN Zheng-qing.The Non-linear Finite Element Analysis for Two-node Catenary Element of Cable Structure Based on UL Formulation[J].China Civil Engineering Journal,2003,36(8):63-68.
[7]宗周红,赖苍林,林友勤,等.大跨度预应力混凝土连续刚构桥的动力特性分析[J].地震工程与工程振动,2004,24(3):98-104. ZONG Zhou-hong,LAI Cang-lin,LIN You-qin,et al.Analysis of Dynamic Characteristics of a Large-span Prestressed Concrete Continuous Rigid Frame Bridge[J].Earthquake Engineering and Engineering Vibration,2004,24(3):98-104.
[8]范立础.桥梁抗震[M].上海:同济大学出版社,1997. FAN Li-chu.Seismic Design for Bridges[M].Shanghai:Tongji University Press,1997.
[9]XU Y L,KO J M.Vibration Studies of Tsing Ma Suspension Bridge[J].Journal of Bridge Engineering,1997,11:149-156.
[10]王 浩,李爱群,杨玉冬,等.中央扣对大跨悬索桥动力特性的影响[J].中国公路学报,2006,19(6):49-53. WANG Hao,LI Ai-qun,YANG Yu-dong,et al.Influence of Central Buckle on Dynamic Behavior of Long-span Suspension Bridge[J].China Journal of Highway and Transport,2006,19(6):49-53.
[11]ABDEL-GHAFFAR A M.Vibration Studies and Tests of a Suspension Bridge[J].Earthquake Engineering and Structural Dynamics,1978,6(5):473-496.
[12]CHENG J,JIANG J J,XIAO R C,et al.Series Method for Analyzing 3D Nonlinear Torsional Divergence of Suspension Bridges[J].Computers and Structures,2003,81(5):299-308.
[13]尼尔斯J G.缆索支承桥梁--概念与设计[M].金增洪,译.北京:人民交通出版社,2002. NIELS J G.Cable Supported Bridge-Concept and Design[M].Translated by JIN Zeng-hong.Beijing:China Communications Press,2002.
[14]HUA X G,CHEN Z Q.Full-order and Multimode Flutter Analysis Using ANSYS[J].Finite Elements in Analysis and Design,2008,44(9/10):537-551.

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Last Update: 2009-12-20