维修轨道位置对箱梁悬索桥涡激振动性能影响的试验研究

IF 2.2 Q2 CONSTRUCTION & BUILDING TECHNOLOGY
Chunguang Li, Hubin Yan, Minhao Zou, Yan Han, C. S. Cai, Long Wang
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引用次数: 0

摘要

为研究维修轨道对主梁涡激振动性能的影响,通过对某大跨度钢箱梁悬索桥的风洞振动和压力测量,获得了主梁截面模型的涡激振动响应和表面压力数据时程。主梁在距主梁底板外缘1、2.5、5 m的不同维修轨道位置,以±5°攻角测试主梁的涡激振动性能。分析了涡激力的均值、根方差和幅值谱,以及局部气动力对整体气动力的相关系数和贡献系数。结果表明:当维护轨道距离底板外缘1 m时,主梁的涡激振动性能最差,最大幅值为0.457 m,远远超出规范允许值;维修轨道向内移动大大提高了主梁的涡激振动性能。压力分析表明,上表面前后压力波动较大是由于主梁的强涡激振动造成的。从这个意义上说,这两个区域的压力波动减弱和局部气动力减小是提高涡激性能的主要原因。当养护轨道与底板的距离调整为2.5 m时,3.5 m风障、30%通风率可有效抑制箱梁的动振。抑制的主要原因是梁上表面压力波动的消除干扰了局部气动力与整体气动力的相关性,从而减小了局部气动力对涡致力的贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental study on the influence of maintenance track position on vortex-induced vibration performance of a box girder suspension bridge
To study the influence of maintenance track on the vortex-induced vibration (VIV) performance of main girder, the VIV response and time history of surface pressure data of a section model were obtained by wind tunnel vibration and pressure measurements for a large-span steel box girder suspension bridge. The VIV performance of the main girder was tested at ±5° attack angles of various maintenance track positions, including 1, 2.5, and 5 m away from the outer edge of the girder bottom plate. The mean values, root variances and amplitude spectra of vortex-induced force and the correlation and contribution coefficients of local aerodynamic force to overall aerodynamic force were analyzed. The results show that when the maintenance track is 1 m away from the outer edge of the bottom plate, the main girder exhibits the worst VIV performance with a maximum amplitude of 0.457 m, far beyond the allowable value of the specification. The VIV performance of the main girder was greatly improved by moving the maintenance track inward. The pressure analysis indicates that the large pressure fluctuation at the front and rear parts of the upper surface is attributed to the strong VIV of the main girder. In this sense, the improved VIV performance is mainly contributed by the weakening of pressure fluctuation in these two areas and the reduced local aerodynamic force. When the distance between the maintenance track and bottom plate is adjusted to 2.5 m, a 3.5 m wind barrier with a ventilation rate of 30% effectively inhibits the VIV of the box girder. The main reason for the suppression is that the elimination of pressure fluctuation on the upper surface of the girder disturbs the correlation between local aerodynamic force and overall aerodynamic force, consequently diminishing the contribution of local aerodynamic force to the vortex-induced force.
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来源期刊
Frontiers in Built Environment
Frontiers in Built Environment Social Sciences-Urban Studies
CiteScore
4.80
自引率
6.70%
发文量
266
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