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Aerodynamic problems of cable-stayed bridges spanning over one thousand meters 被引量:1
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作者 Chen Airong Ma Rujin Wang Dalei 《Engineering Sciences》 EI 2009年第3期16-22,共7页
The elongating of cable-stayed bridge brings a series of aerodynamic problems. First of all,geometric nonlinear effect of extreme long cable is much more significant for cable-stayed bridge spanning over one thousand ... The elongating of cable-stayed bridge brings a series of aerodynamic problems. First of all,geometric nonlinear effect of extreme long cable is much more significant for cable-stayed bridge spanning over one thousand meters. Lateral static wind load will generate additional displacement of long cables,which causes the decrease of supporting rigidity of the whole bridge and the change of dynamic properties. Wind load,being the controlling load in the design of cable-stayed bridge,is a critical problem and needs to be solved. Meanwhile,research on suitable system between pylon and deck indicates fixed-fixed connection system is an effective way for improvement performance of cable-stayed bridges under longitudinal wind load. In order to obtain aerodynamic parameters of cable-stayed bridge spanning over one thousand meters,identification method for flutter derivatives of full bridge aero-elastic model is developed in this paper. Furthermore,vortex induced vibration and Reynolds number effect are detailed discussed. 展开更多
关键词 cable-stayed bridge dynamic properties suitable system between pylon and deck Reynolds number effect flutter derivatives
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Application of Wireless Monitoring System to Structural Health Monitoring of Long-Spanned Cable-Stayed Bridge
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作者 孟庆成 齐欣 李乔 《Journal of Southwest Jiaotong University(English Edition)》 2007年第2期117-121,共5页
The remote monitoring system applied to the construction control and health monitoring of the Nanjing Third Yangtze River Bridge is introduced. The System makes it possible to get the structure capabilities and enviro... The remote monitoring system applied to the construction control and health monitoring of the Nanjing Third Yangtze River Bridge is introduced. The System makes it possible to get the structure capabilities and environmental parameters of the bridge at the predetermined moment. It sends the collected data over a long distance to an assigned position for display and analysis. The related methods and working condition of the wireless monitoring system are discussed. The measured data during 48 h are employed to determine the feasibility for the closure of the bridge. 展开更多
关键词 Construction control Health monitoring Wireless monitoring Data collection Steel pylon cable-stayed bridge
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Seismic experimental study on a concrete pylon from a typical medium span cable-stayed bridge 被引量:3
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作者 Yan XU Shijie ZENG +1 位作者 Xinzhi DUAN Dongbing JI 《Frontiers of Structural and Civil Engineering》 SCIE EI CSCD 2018年第3期401-411,共11页
According to the current seismic design codes of bridges in China, cable-stayed bridges have been usually required to remain elastic even subjected to strong earthquakes. However, the possibilities of pylon plastic be... According to the current seismic design codes of bridges in China, cable-stayed bridges have been usually required to remain elastic even subjected to strong earthquakes. However, the possibilities of pylon plastic behavior were revealed in recent earthquake damages. The lack of due diligence in the nonlinear seismic behavior of the pylon has caused a blurry understanding about the seismic performance of such widely built though less strong earthquake experienced structures. In light of this point, a 1/20 scaled concrete pylon model which from a typical medium span cable-stayed bridge was designed and tested on the shaking table longitudinally. The dynamic response and seismic behavior of the pylon were measured, evaluated and compared to reveal its vulnerable parts and nonlinear seismic performance. The results show that most parts of the concrete pylon remain elastic even under very strong excitations, which means a sufficient safety margin for current pylon longitudinal design. The most vulnerable parts of the pylon appeared first at the pylon bottom region, cracks opening and closing at the pylon bottom were observed during the test, and then extended to the lower column and middle column around the lower strut. 展开更多
关键词 cable-stayed bridge pylon shaking table test seismic behavior
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