THE EFFECT OF TRAFFIC FLOWS ON THE VORTEX-EXCITED RESONANCE OF BRIDGE

机译：交通流量对桥梁涡激共振的影响

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vortex-excited resonance is one of the serious disadvantage response induced by wind for the long-span bridge.It normally happens at a lower wind speed,and is susceptible to the change of aerodynamic configuration of structure.While vehicles are driving on the bridge,the outlook of the shape of bridge section will be changed significantly which would lead to aerodynamic performance of bridge.In order to study the effect of vehicle on the vortex-excited resonance of bridge in different traffic flow,series of wind tunnel test had been carried out using free hanging section model.The results indicate that the appearance of the vehicles is good at restraining the bridge vortex-induced resonance in different traffic flows and from the safety point of view,the vehicles effect on vortex-excited vibration on a real bridge is not necessary to be considered.

机译：涡激共振是大跨度桥梁由风引起的严重不利响应之一，通常发生在较低风速下，并且容易受到空气动力学结构变化的影响。为了研究车辆对不同交通流量下桥梁涡流激振共振的影响，进行了一系列的风洞试验结果表明，车辆的外观能很好地抑制不同交通流中桥梁涡激共振，从安全的角度来看，车辆对真实桥梁涡激振动的影响没有必要被考虑。

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来源
《Proceedings of the 13th International Symposium on Structural Engineering》|2014年|1458-1466|共9页
会议地点 Hefei(CN)
作者
Li C G; Y.Han; D.Tan;
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作者单位

Hunan Province Research Center for Safety Control Technology and Equipment of Bridge Engineering,Changsha University of Science Technology,Changsha,P.R.China;

State Key Laboratory for Disaster Reduction in Civil Engineering,Tongji University,Shanghai,P.R.China;

Hunan Province Research Center for Safety Control Technology and Equipment of Bridge Engineering,Changsha University of Science Technology,Changsha,P.R.China;

Hunan Province Research Center for Safety Control Technology and Equipment of Bridge Engineering,Changsha University of Science Technology,Changsha,P.R.China;

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原文格式 PDF
正文语种 eng
中图分类地质学;
关键词
Vortex excited resonance; vehicle-bridge system wind tunnel test; section model;

机译：涡激共振；车桥系统风洞试验；截面模型;
入库时间 2022-08-26 14:11:08

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1. Sectional model test study on vortex-excited resonance of vehicle-bridge system of Shanghai Bridge over Yangtse River [J] . Li ZHOU, Yaojun GE 结构与土木工程前沿：英文版 . 2009,第001期

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2. Intensified flow dynamics by second-order acoustic standing-wave mode: Vortex-excited acoustic resonances in channel branches [J] . Wang Peng, Liu Yingzheng Physics of fluids . 2019,第3期

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3. Influence of vortex-excited acoustic resonance on flow dynamics in channel with coaxial side-branches [J] . Wang Peng, Ma Hongyu, Deng Yifan, Physics of fluids . 2018,第9期

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4. THE EFFECT OF TRAFFIC FLOWS ON THE VORTEX-EXCITED RESONANCE OF BRIDGE [C] . Li C G, Y.Han, D.Tan International Symposium on Structural Engineering . 2014

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5. Vortex-excited vibrations of pivoted cylinders in uniform and shear flows. [D] . Balasubramanian, Sathish. 1998

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6. Heavy vehicle traffic is related to wheeze among schoolchildren: a population-based study in an area with low traffic flows [O] . Martin Andersson, Lars Modig, Linnea Hedman, 2011

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7. Validity of Reversible Flow Lanes between Kandy Road Flyover and New Kelani Bridge Roundabout along A01 to Accommodate Peak Traffic Flows [O] . K. S. Weerasekera 2011

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8. Modeling Vortex-Excited Vibrations of Axially Varying Cylindrical Structures in Non-Uniform Flow Fields [R] . Skop, R. A. 1998

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THE EFFECT OF TRAFFIC FLOWS ON THE VORTEX-EXCITED RESONANCE OF BRIDGE

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