STUDY ON SPATIAL STRESS EFFECT OF PC CONTINUOUS THIN-WALLED BOX GIRDER BRIDGE

Stavební obzor - Civil Engineering Journal Pub Date : 2021-10-25 DOI:10.14311/cej.2021.03.0048

Honglei Zhang

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Abstract

In order to study the influence of spatial stress effect and shear lag effect on the cracking of PC continuous thin-walled box girder bridge, a spatial model was established by using ANSYS finite element software to analyze the internal stress distribution of the bridge. The test results are compared with the analysis results of spatial model and plane link system model through the load test of real bridge. The results show that the longitudinal stress is evenly distributed along the width direction, which means that the spatial stress effect and the shear lag effect have little influence on the downdeflection of the bridge. The shear lag coefficient at the longitudinal axis of midspan bottom plate and the intersection of bottom plate and web are larger than other positions, which is most likely to produce cracks caused by stress concentration, and should be strengthened here in practical engineering. The results of load test show that the results of spatial finite element analysis are more reliable than those of plane link system calculation, and the design and construction based on the results of spatial finite element analysis is safer.

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PC连续薄壁箱梁桥空间应力效应研究

为了研究空间应力效应和剪力滞效应对PC连续薄壁箱梁桥开裂的影响，利用ANSYS有限元软件建立空间模型，分析桥梁内应力分布。通过实桥荷载试验，将试验结果与空间模型和平面连杆系统模型的分析结果进行了比较。结果表明:纵向应力沿宽度方向分布均匀，表明空间应力效应和剪力滞效应对桥梁下挠度影响较小;跨中底板纵轴及底板与腹板交点处剪力滞系数较大，最容易产生应力集中引起的裂缝，在实际工程中应在此加强。荷载试验结果表明，空间有限元分析结果比平面连杆系统计算结果更可靠，基于空间有限元分析结果的设计和施工更安全。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Stavební obzor - Civil Engineering Journal

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