摘要
确定车辆和桥梁各自的气动参数是车-桥耦合振动分析的基础。为研究主梁断面形状对车辆和桥梁气动特性的影响,利用自制的三分力分离装置-交叉滑槽系统,针对8种分离式双箱主梁断面进行多工况模型风洞试验。通过对不同模型及工况试验结果的对比,讨论不同主梁断面形状下车-桥系统的雷诺数效应,得出不同行车位置处车辆和桥梁各自气动参数随主梁宽高比的变化规律以及其阻力系数的取值方法,为后续抗风设计及风-车-桥耦合振动研究提供参考。
Determining the aerodynamic coefficients of both bridge deck and vehicle is the basis of coupling vibration analysis of vehicle-bridge systems. In order to investigate the influence of bridge deck cross section shape on the aerodynamic characteristics of a vehicle-bridge system, using a crossed slot system, a self-made three-component aerodynamic force separating equipment, wind tunnel tests are carried out for 8 separated twin-box girders with different section geometries. Comparing the test results, the effect of Reynolds number is discussed, and variation of static aerodynamic coefficients of both the vehicle at different rail positions and bridge deck with different beam height to width ratios is explored. A method of calculating the drag coefficient is summarized to provide a reference for future resistant- wind design and analysis of coupling vibration of wind-vehicle-bridge systems.
出处
《土木工程学报》
EI
CSCD
北大核心
2012年第7期127-133,共7页
China Civil Engineering Journal
基金
国家自然科学基金(50508036)
教育部新世纪优秀人才支持计划(NCET-06-0802)
四川省杰出青年学科带头人计划(2009-15-406)
关键词
车-桥系统
桥道断面
气动特性
节段模型
风洞试验
vehicle-bridge system
deck cross section
aerodynamic characteristics
cross section
wind tunnel test
