Experimental and analytical vibration serviceability assessment of an in-service footbridge

Amir Gheitasi , Osman E. Ozbulut , Salman Usmani , Mohamad Alipour , Devin K. Harris
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引用次数: 30

Abstract

This paper discusses vibration serviceability assessment of a highly trafficked local footbridge based on the experimental tests and analytical studies. The selected bridge is an approximately 60 m (196 ft) long multi-span steel structure with a continuous reinforced concrete slab supported on two longitudinal steel girders. The experimental study consists of ambient vibration and pedestrian interaction tests to describe the dynamic characteristics of the selected bridge structure. The fundamental frequency of the bridge in the vertical direction obtained through ambient vibration tests was within the critical range described by available design guidelines. This required further analysis to assess the performance of the bridge relative to the maximum acceleration thresholds. In addition to the peak dynamic response obtained from the pedestrian interaction tests, peak acceleration values were calculated analytically based on current design guidelines and compared to the comfort limits. Results from both experimental and analytical studies suggest that the footbridge possesses satisfactory serviceability performance under low and dense traffic conditions, but the comfort level under very dense traffic loads was classified as minimum according to the results of the analytical calculations.

在役人行桥振动性能试验与分析评价
本文在试验试验和分析研究的基础上,对某交通繁忙的地方性人行桥进行了振动耐久性评价。所选择的桥梁是一个长约60米(196英尺)的多跨钢结构,由两个纵向钢梁支撑的连续钢筋混凝土板。试验研究包括环境振动和行人相互作用试验,以描述所选桥梁结构的动力特性。通过环境振动试验获得的桥梁在垂直方向上的基频在现有设计准则所描述的临界范围内。这需要进一步分析,以评估桥梁相对于最大加速度阈值的性能。除了从行人交互试验中获得的峰值动态响应外,还根据当前设计准则解析计算了峰值加速度值,并与舒适限制进行了比较。试验和分析结果表明,该人行天桥在低密度交通工况下具有良好的使用性能,但在非常密集的交通工况下,其舒适性属于最低水平。
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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