Hunan Province Research Center for Safety Control Technology and Equipment of Bridge Engineering,Changsha University of Science Technology,Changsha,P.R.China;
State Key Laboratory for Disaster Reduction in Civil Engineering,Tongji University,Shanghai,P.R.China;
Hunan Province Research Center for Safety Control Technology and Equipment of Bridge Engineering,Changsha University of Science Technology,Changsha,P.R.China;
Hunan Province Research Center for Safety Control Technology and Equipment of Bridge Engineering,Changsha University of Science Technology,Changsha,P.R.China;
Vortex excited resonance; vehicle-bridge system wind tunnel test; section model;
机译:杨技河上海桥车桥系统涡旋激发谐振截面模型试验研究
机译:通过二阶声波模式强化流动动力学:涡旋兴奋的声学谐振中的通道分支
机译:涡旋激发声谐振对同轴侧分支流动动力学的影响
机译:交通流量对桥梁涡旋激发共振的影响
机译:均匀流动和剪切流动中枢轴圆柱的涡激振动。
机译:车辆交通繁忙与学童喘息有关:在交通流量低的地区进行的基于人口的研究
机译:A01沿A01沿康迪路天桥和新的Kelani桥环形交叉路口的可逆流廊的有效性,以适应峰值交通流量
机译:非均匀流场中轴向变化圆柱结构的涡激振动模拟