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| Analysis of Combination Effect of Beam-arch of V-shaped Rigid-frame and Arch Structure Combined Bridge |
| GONG Jun-hu, WANG Hua-cheng, HUANG Bei-ping |
| China Railway Siyuan Survey and Design Group Co. Ltd, Wuhan, Hubei 430063,China |
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Abstract Research purposes:The V-shaped rigid-frame and arch structure combined bridge is formed by connection of slant legs of main span of V-shaped pier continuous rigid-frame with the arch abutment of concrete-filled steel tube arch. It has the feature that the arch and V-shaped pier continuous rigid-frame bear the load together and its performance of the structure is different from general beam-arch combined bridge. The research is done to reveal the combination effect of beam-arch of the combined bridge.
Research conclusions:Because of the enforcement effect of arch rib on V-shaped pier continuous rigid-frame, the maximum bending moment and deflection of the middle span of rigid-frame and arch structure combined bridge under effect of the active load decrease by 50%, the deflection of the middle span caused by the concrete creeping and shrinkage in the later stage is 12% of V-shaped pier rigid-frame bridge and the vertical stiffness of V-shaped rigid-frame and arch structure combined bridge is 2.56 trimes of V-shaped rigid-frame bridge, so the combination effect of the beam-arch of V-shaped rigid-frame and arch structure combined bridge is very obvious.
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Received: 27 October 2009
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[ 1 ] 罗世东, 瞿国钊. V形连续刚构-拱组合桥设计研究[C]//第十八届全国桥梁学术会议论文集. 北京: 人民交通出版社, 2008(4): 483-487.
Luo Shidong, Qu Guozhao. Design of Combined Bridge of V-shaped Pier Continuous Rigid-frame and Arch Structure[C]//The 18th Proceedings of the National Conference on Bridge Engineering. Beijing: China Communications Press, 2008(4): 483-487.
[ 2 ] 孙树礼. 连续梁拱组合桥梁设计关键技术对策研究[J]. 铁道标准设计, 2005(5): 25-28.
Sun Shuli. Research on the Key Technologies Countermeasures in the Design of Combined Bridges with Prestressed Continuous Beam and Arch[J]. Railway Standard Design, 2005(5): 25-28.
[ 3 ] 罗世东, 严爱国, 刘振标. 大跨度连续刚构柔性拱组合桥式研究[J]. 铁道科学与工程学报, 2004(2): 57-61.
Luo Shidong, Yan Aiguo, Liu Zhenbiao.Research on the Long -span Combined Bridge Type of Continuous Rigid Frame and Flexible Arch[J]. Journal of Railway Science and Engineering, 2004(4): 57-61.
[ 4 ] 易云焜. 梁拱组合体系设计理论关键问题研究[D]. 上海: 同济大学, 2007.
Yi Yunkun. Key-problem Study for Design Theory of Beam-arch Association Bridges[D]. Shanghai: Tongji University, 2007.
[ 5 ] 陈宝春.钢管混凝土拱桥[M ]. 2版.北京:人民交通出版社, 2007.
Chen Baochun. Concrete-filled Steel Tube Arch Bridge[M]. The Second Edition. Beijing: China Communications Press, 2007.
[ 6 ] 刘振标, 严爱国, 罗世东. 梁拱组合结构收缩徐变效应的影响分析[J]. 铁道标准设计, 2006(8): 22-24.
Liu Zhenbiao, Yan Aiguo, Luo Shidong. Influences of Shrinkage and Creep in Beam-arch Composite Structure[J]. Railway Standard Design, 2006(8): 22-24.
[ 7 ] 莫悒. 青藏铁路跨拉贡公路连续梁-拱组合结构桥设计[J]. 铁道工程学报, 2009(2): 69-71.
Mo Yi. Design of Continuous Beam and Arch Combination Bridge of Qinghai-Tibet Railway for Crossing Lhasa-Gongga Highway[J]. Journal of Railway Engineering Society, 2009(2): 69-71.
[ 8 ] 胡狄. 预应力混凝土桥梁徐变效应分析[D]. 长沙: 中南大学, 2003.
Hu Di. Analysis of Creep Effect in Prestressed Concrete Bridges[D]. Changsha: Central South University, 2003.
[ 9 ] Linzhong Deng, Michel Gholson. Ales Znidaric, Joan R. Cases. Nonlinear Flexural Behavior of Pre-stressed Concrete Girder Bridges. Journal of Bridge Engineering, 2001, 6(4): .
[ 10 ] 樊海林, 许惟国. 梁拱组合桥考虑柔性拱前后的结构分析比较[J]. 四川建筑, 2008(1): 115-117.
Fan Hailin, Xu Weiguo. Analysis of Beam-arch Combined Bridge with Arch or without Arch[J]. Sichuan Architecture, 2008(1): 115-117.
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2010, Vol. 27 
