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自锚式斜拉-悬索协作体系桥基础微分方程近似推导 被引量:2

APPROXIMATE DEDUCTION OF THE BASIC DIFFERENTIAL EQUATIONS FOR SELF-ANCHORED CABLE-STAYED SUSPENSION BRIDGES
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摘要 按连续体的方法描述自锚式斜拉-悬索协作体系桥在竖向荷载作用下的结构静力行为。基于分区广义变分原理,考虑了主梁和主塔的压弯耦合效应,建立了三跨自锚式斜拉-悬索协作体系桥的大位移不完全广义势能泛函,通过变分导出了自锚式斜拉-悬索协作体系桥的基础微分方程。以一座自锚式斜拉-悬索协作体系桥为例,求出其解析解,并与数值解相互比较,二者比较接近。所得基础微分方程可以用于自锚式斜拉-悬索协作体系桥的初步分析,并为阐述此类桥型的结构静力行为提供理论依据。 The static behavior of self-anchored cable-stayed suspension bridge is described with continuum method. Based on the partition generalized variational principle, the incomplete generalized potential energy functional of a three-span self-anchored cable-stayed suspension bridge is established by considering the coupling effect of flexural and axial action of the girder and the tower. The differential equations of self-anchored cable-stayed suspension bridge are derived through constraint variation. A self-anchored cable-stayed suspension bridge is taken as an example. The results from the proposed analytic method agreed well with those from numerical analysis. The differential equations can analyze self-anchored cable-stayed suspension bridge primarily, and can provide a theoretical basis for the static analysis of such bridges.
作者 张哲 王会利 石磊 秦泗凤
机构地区 大连理工大学桥梁工程研究所
出处 《工程力学》 EI CSCD 北大核心 2008年第5期131-136,共6页 Engineering Mechanics
基金 交通部西部交通建设科技项目(200631882350)
关键词 桥梁工程 自锚式斜拉-悬索协作体系 分区广义变分原理 泛函 压弯耦合 bridge engineering self-anchored cable-stayed suspension bridge partition generalized variational principle functional coupling of flexural and axial action
分类号 U448.29 [建筑科学—桥梁与隧道工程]
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参考文献11

二级参考文献22

  • 1周念先.桥梁方案优选(九)[J].江苏交通工程,1996(1):12-21. 被引量:1
  • 2蒙云.高强硅灰F.R.C力学性能研究.全国第五届纤维水泥与纤维学术会议论文集[M].广州:广东科技出版社,1994..
  • 3蒙云.大跨径P.F.C吊拉组合索桥结构计算分析.‘95全国桥梁学术会议论文集[M].北京:人民交通出版社,1995..
  • 4小西一郎著 戴振藩译.钢桥⑤[M].北京:中国铁道出版社,1981..
  • 5Koishi I,Shiraishi N.On the free vibrational characteristics of long-spanned suspension bridge [J].Int'l Symposium on Suspension Bridge,Lisbon,1966,15(6):655~662.
  • 6Abdel-Ghaffar A M.Suspension bridge vibration.continuum formulation [J].Journal of the Engineering Mechanics,ASCE,1982,108(6):1215~1236.
  • 7A M Abdel-Ghaffar.Vertical vibration analysis of suspension bridges [J].Journal of the Structure Engineering Division,ASCE,1980,106(10):2053~2075.
  • 8John A Ochsendorf,Divid P Villingtion.Self-anchored suspension bridge [J].Journal of Bridge Engineering,August,1999,4(3):155~157.
  • 9Gimsing NJ.Cable Supported Bridges[M].Chichester:John Wiley,1997.
  • 10H Wenzel.Cable Stayed Bridge History Design Application[M].Northern Gate Book Co..Ltd.,1998.

共引文献75

同被引文献13

  • 1Brotton D M.The solution of suspension bridge problems by digital computers,Part Ⅰ[J].The Structure Engineering,1965,41(3):200.
  • 2Brotton D M.The solution of suspension bridge problems by digital computers,Part Ⅱ[J].The Structure Engineering,1965,41(7):213.
  • 3BuonopaneSG,Billington D P.Theory and history of suspension bridge design from 1823 to 1940[J].Journal of Structural Engineering,1993,119(3):954.
  • 4Koichi S.Deflection theory of multispan suspension bridges considering deflection of towers and its numerical examples of various influence lines[C]// Proceeding of Japan Society of Civil Engineers.[S.l.]:Japan Society of Civil Engineers,1971,190:11-22.
  • 5Alan J.Gravity stiffness of classical suspension bridges[J].Journal of Structural Engineering,1983,109(1):16.
  • 6尼·吉姆辛.缆索支承桥梁——概念与设计[M].2版.北京:人民交通出版社,2002.
  • 7陈秉学,张尚礼,谭洁芳,林志华,崔社鎏.硝普钠在心脏直视手术中的应用(附39例临床小结)[J]中山医学院学报,1983(Z1).
  • 8熊玉卿,罗崇泰,王多书,马勉军.离子束辅助沉积碲化铅薄膜的AFM研究[J].真空与低温,2008,14(1):11-13. 被引量:4
  • 9杨进.多塔多跨悬索桥应用于海峡长桥建设的技术可行性与技术优势[J].桥梁建设,2009,39(2):36-39. 被引量:27
  • 10徐君兰,向中富.关于悬索桥的重力刚度[J].重庆交通学院学报,2000,19(2):71-74. 被引量:26

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二级引证文献17

工程力学
2008年 第5期

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