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作 者:李珂[1,2,3] 葛耀君 赵林[3] 夏锦林[3]
机构地区:[1]山地城镇建设与新技术教育部重点实验室(重庆大学),重庆400045 [2]重庆大学土木工程学院,重庆400045 [3]同济大学土木工程防灾国家重点实验室,上海200092
出 处:《工程力学》2018年第3期79-85,共7页Engineering Mechanics
基 金:土木工程防灾国家重点实验室"973计划"项目(2013CB036301);国家自然科技基金重大项目(91215302);国家自然科学基金优秀重点实验室项目(51323013);中国博士后科学基金项目(2017M620413)
摘 要:通过有限元方法探讨了全桥气动弹性模型主梁轴向刚度失真和主梁初内力失真的问题,以及它们对大跨度斜拉桥风致静力响应的反应能力。分析发现,两个失真因素均会较明显地导致实际结构的风致静力响应被低估,但两者对试验结果准确性的影响趋势可能相反而相互抵消。当两个失真因素同时作用时,风洞试验会低估实际结构主梁竖向风致静力位移10%左右,主梁侧向和扭转风致静力位移3%左右。由于斜拉桥风致静力失稳现象主要表现为主梁扭转发散,基于全桥气动弹性模型的风洞试验对大跨度斜拉桥风致静力响应的模拟结果在可接受的精度范围之内。Inaccuracies of the axial stiffness and internal force distribution of the bridge girder in aero-elastic full bridge models were studied by using the finite element method, and their influences on aerostatic responses of long-span cable-stayed bridges were examined. It is found that the inaccuracy of the axial stiffness and the inaccuracy of the internal force distribution can lead to significant underestimation of the aerostatic responses of the structure, but their effects can be counteractive and therefore offset the deviation from each other. When the two inaccuracies are involved simultaneously, the wind tunnel tests will underestimate the aerostatic responses of the bridge girder of about 10% in the vertical direction and 3% in the lateral and torsional directions. Since the aerostatic instability of cable-stayed bridges mainly presents as torsional divergence of the bridge girder, wind tunnel tests based on aero-elastic full bridge models are of acceptable accuracy for the aerostatic responses of long-span cable-stayed bridges.
关 键 词:桥梁与隧道工程 静风响应 有限元方法 风洞试验 气动弹性模型 斜拉桥
分 类 号:U441.3[建筑科学—桥梁与隧道工程]
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