Bridge hanger vibrations have been reported under icy conditions. In this paper, the results from a series of static and dynamic wind tunnel tests on a circular cylinder representing a bridge hanger with simulated thin ice accretions are presented. The experiments focus on ice accretions produced for wind perpendicular to the cylinder at velocities below 30 m/s and for temperatures between -5C and -1C. Aerodynamic drag, lift and moment coefficients are obtained from the static tests, whilst mean and fluctuating responses are obtained from the dynamic tests. The influence of varying surface roughness is also examined. The static force coefficients are used to predict parameter regions where aerodynamic instability of the iced bridge hanger might be expected to occur, through use of an adapted theoretical 3- DOF quasi-steady galloping instability model, which accounts for sectional axial rotation. A comparison between the 3-DOF model and the instabilities found through two degree-of-freedom (2-DOF) dynamic tests is presented. It is shown that, although there is good agreement between the instabilities found through use of the quasi-steady theory and the dynamic tests, discrepancies exist-indicating the possible inability of quasi-steady theory to fully predict these vibrational instabilities.
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机译:在冰冷的条件下,桥梁吊架的振动已有报道。在本文中,给出了一系列动态和静态风洞试验的结果,这些试验在一个圆形圆柱体上进行,该圆柱体代表具有模拟薄冰块沉积物的桥架。实验着重于垂直于圆柱体的风以低于30 m / s的速度以及-5C至-1C的温度产生的积冰。空气阻力,升力和力矩系数从静态测试中获得,而均值和波动响应则从动态测试中获得。还检查了变化的表面粗糙度的影响。静力系数用于预测参数化区域,在该参数化区域中,预计会出现冰桥吊架的空气动力学不稳定性,方法是使用经过适应的理论上的3自由度准稳态驰豫不稳定性模型,该模型考虑了截面轴向旋转。进行了3-DOF模型与通过两个自由度(2-DOF)动态测试发现的不稳定性之间的比较。结果表明,尽管通过使用准稳态理论发现的不稳定性与动态测试之间存在良好的一致性,但存在差异,表明准稳态理论可能无法完全预测这些振动不稳定性。
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