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Space grid analysis method in modelling shear lag of cable-stayed bridge with corrugated steel webs

结构工程 箱梁 滞后 大梁 剪切(地质) 网格 轮缘 横截面 工程类 计算机科学 地质学 数学 几何学 岩石学 计算机网络
作者
Ye Ma,Ying-sheng Ni,Dong Xu,Jin-Kai Li
出处
期刊:Steel and Composite Structures [Technopress]
卷期号:24 (5): 549-559 被引量:10
标识
DOI:10.12989/scs.2017.24.5.549
摘要

As few multi-tower single-box multi-cell cable-stayed bridges with corrugated steel webs have been built, analysis is mostly achieved by combining single-girder model, beam grillage model and solid model in support of the design. However, such analysis methods usually suffer from major limitations in terms of the engineering applications: single-girder model fails to account for spatial effect such as shear lag effect of the box girder and the relevant girder width and eccentric load coefficient; owing to the approximation in the principle equivalence, the plane grillage model cannot accurately capture shear stress distribution and local stress state in both top and bottom flange of composite box girder; and solid model is difficult to be practically combined with the overall calculation. The usual width method fails to provide a uniform and accurate effective length (and the codes fail to provide a unified design approach at those circumstance) considering different shear lag effects resulting from dead load, prestress and cable tension in the construction. Therefore, a novel spatial grid model has been developed to account for shear lag effect. The theoretical principle of the proposed spatial grid model has been elaborated along with the relevant illustrations of modeling parameters of composite box girder with corrugated steel webs. Then typical transverse and longitudinal shear lag coefficient distribution pattern at the side-span and mid-span key cross sections have been analyzed and summarized to provide reference for similar bridges. The effectiveness and accuracy of spatial grid analysis methods has been finally validated through a practical cable-stayed bridge.
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