东北大学学报:自然科学版 ›› 2015, Vol. 36 ›› Issue (8): 1204-1208.DOI: 10.12068/j.issn.1005-3026.2015.08.030

• 资源与土木工程 • 上一篇    下一篇

钢与混凝土组合箱梁剪力滞效应分析

王连广, 万江   

  1. (东北大学 资源与土木工程学院, 辽宁 沈阳110819)
  • 收稿日期:2014-06-29 修回日期:2014-06-29 出版日期:2015-08-15 发布日期:2015-08-28
  • 通讯作者: 王连广
  • 作者简介:王连广(1964-),男,辽宁鞍山人,东北大学教授,博士生导师.
  • 基金资助:
    中央高校基本科研业务费专项资金资助项目(N120401010).

Analysis of Shear Lag Effect of Steel and Concrete Composite Box Girders

WANG Lian-guang, WAN Jiang   

  1. School of Resources & Civil Engineering, Northeastern University, Shenyang 110819, China.
  • Received:2014-06-29 Revised:2014-06-29 Online:2015-08-15 Published:2015-08-28
  • Contact: WAN Jiang
  • About author:-
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摘要: 根据钢与混凝土组合箱形结构翘曲位移函数设置的基本原理,选择一系列符合组合箱梁基本翘曲模式的抛物线型翘曲位移函数,以最小势能原理为基础,得到利用变分法分析钢与混凝土组合箱梁剪力滞效应的控制微分方程和边界条件,并推导了典型的简支组合箱梁在跨中集中荷载作用下的解析解.静力分析算例结果证明了选择二次抛物线型为翘曲位移函数的合理性和适用性.将解析解与实测结果和有限元计算结果进行比较,证明了本文方法的有效性.基于能量原理得到的计算公式能够满足工程实际的需要,且计算较为简单.

关键词: 桥梁工程, 组合箱梁, 能量变分原理, 剪力滞效应, 翘曲位移函数, 剪力滞系数

Abstract: Based on the basic principle of warping displacement function setting, a series of parabolic warping displacement functions that meet the basic warping mode of concrete composite box girders were selected for the proposed approach. The energy variation principle was applied to establish the governing differential equations and corresponding natural boundary conditions in consideration of the effect of shear lag. Then the analytical solutions to typical simply supported composite girders under mid-span concentrated load were derived. The static calculation examples verified the rationality and applicability of selecting quadratic parabolic warping displacement functions. Meanwhile, the measured results and the analytical solutions were compared with the finite element calculations so as to confirm the effectiveness of the approach. The calculation formula based on energy principle can meet the practical needs in engineering and the calculation is simple.

Key words: bridge engineering, steel and concrete composite box girder, energy variation principle, shear lag effect, warping displacement function, shear lag coefficient

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