Design Optimization of PCI Girders: A Parametric Study

Pub Date : 2023-01-06 DOI:10.3233/brs-220203

M. Jahjouh, S. Erhan

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Abstract

This study investigates the effect of superstructure configuration on the optimum design of slab on Precast I (PCI) girder bridges. For this purpose, more than 20,000 bridge cases of varying superstructure configurations are considered to investigate the effects of various superstructure parameters such as girder spacing, span length, slab thickness and girder types on the optimum design of slab on PCI girder bridges. PCI girders are designed conforming to the AASHTO LRFD for flexure using stress limits at the service limit state, then checked at ultimate for flexure and shear using factored loads at the strength limit state. A modified harmony search optimization algorithm is used to obtain optimum bridge design parameters using standard AASHTO PCI girders according to these AASHTO LRFD requirements. Those girders are designed taking into consideration geometrical constraints, stress constraints and constraints related to the conformity of the design with the AASHTO LRFD code. Various sensitivity analysis are performed to investigate the effect of different geometrical factors on the design of the girders, and easy-to-use design aids were developed. The outcomes of this study may facilitate the bridge engineers to choose optimum design parameters such as girder types and spacing as well as number strands for a certain span length before the design of slab on PCI girder bridges.

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PCI梁的优化设计:参数化研究

本文研究了上部结构形态对预制工字钢(PCI)梁桥板优化设计的影响。为此，研究了2万多座不同上部结构构型的桥梁，探讨了不同上部结构参数(梁间距、跨长、板厚、梁型)对PCI梁桥板优化设计的影响。PCI梁的设计符合AASHTO LRFD，在使用极限状态下使用应力极限进行弯曲，然后在强度极限状态下使用因子荷载进行弯曲和剪切极限检查。采用改进的和声搜索优化算法，根据AASHTO LRFD要求，对标准AASHTO PCI梁进行优化设计。这些梁的设计考虑了几何约束、应力约束以及与设计是否符合AASHTO LRFD规范相关的约束。进行了各种灵敏度分析，探讨了不同几何因素对梁设计的影响，并开发了易于使用的设计辅助工具。研究结果可为桥梁工程师在进行PCI梁桥楼板设计前选择一定跨径下的梁型、间距、钢绞线数等优化设计参数提供参考。

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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