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Deng,H., Wang, Y., Li, Q., Shen, Z., Gao, Y., & Lisheng, J. (2021). Wind   tunnel tests on aerodynamic noise from the head car of a high-speed train. Lecture Notes in Electrical Engineering, 163–176. 
张浩. (2022). 现代汽车制造业中的检测技术及其应用. 时代汽车(6), 2.
张文敏,李启良,贾尚帅,韩铁礼 & 王毅刚.(2022).某型高速列车车厢连接处脉动压力的预测与控制.   城市轨道交通研究(03),21-25. doi:10.16037/j.1007-869x.2022.03.005.
沈哲, 杨志刚, 彭里奇, & 王勇. (2022). 汽车风洞非均匀声场偏移导致纯音幅值变化.   同济大学学报(自然科学版)(006), 050.
王广明,陈羽,贾尚帅, 张文敏, & 李启良. (2022). 时速400 km高速列车转向架区域气动噪声控制.   声学技术(001), 041.
杨冀炜. (2022). 热电偶测量排气管表面温度固定方式的优化. 上海汽车(006), 000.
杨志刚,刘嘉楠 & 陈羽.(2022).开口式风洞高速列车头车气动实验模型选取方法.   同济大学学报(自然科学版)(07),1035-1043.
郭婷, 夏超, 储世俊, & 杨志刚. (2022). 不同转向架构型对高速列车列车风及非定常尾迹的影响.   空气动力学学报, 40(2), 94-104.
陈力,夏超,沈哲 & 孙波.(2022).以实托虚汽车风洞虚拟仿真教学平台设计.   实验室研究与探索(06),143-147. doi:10.19927/j.cnki.syyt.2022.06.030.
Ouyang, M., Chen, S., Li, Q., & Yang, Z. (2022). Numerical   investigation on aerodynamic forces and flow patterns of high-speed trains   from open air into long tunnel. Journal of Wind Engineering and   Industrial Aerodynamics, 229, 105142. 
Qiliang, L., Wei, L., Xiaowei, H., & Zhigang, Y. (2022).   Aerodynamic noise control of rearview mirror by steady and unsteady jets.   Applied Acoustics, 192, 108739. 
王德华,夏超,贾青 &   杨志刚.(2022).前缘圆角对汽车三车队列气动特性的影响.2022中国汽车工程学会汽车空气动力学分会学术年会论文集——气动分会场(pp.57-71).
夏超,周华 &   杨志刚.(2022).基于流场反演和机器学习的湍流模型增广在汽车气动仿真中的应用.2022中国汽车工程学会汽车空气动力学分会学术年会论文集——气动分会场(pp.4-13).
Zhou, Z., Xia, C., Du, X., Shan, X., & Yang, Z. (2022).   Impact of the isentropic and Kantrowitz limits on the aerodynamics of an   evacuated tube transportation system. Physics of Fluids, 34(6), 066103. 
王毅刚,朱朗贤,焦燕 & 张昊.(2022).基于圆柱绕流的气动声源识别方法.   同济大学学报(自然科学版)(10),1500-1507.
Zhuo-ming, L., Qi-liang, L., & Zhi-gang, Y. (2022). Flow   structure and far-field noise of high-speed train under ballast track.   Journal of Wind Engineering and Industrial Aerodynamics, 220, 104858. 
冀怡名,史佳伟,圣小珍,何远鹏,徐凡 &   陈力.(2022).波浪形前缘叶片对动车组牵引变压器冷却风机气动性能及噪声特性的影响. 中南大学学报(自然科学版)(07),2798-2808.
Zhou, Z., Xia, C., Shan, X., & Yang, Z. (2022). Numerical   Study on the Aerodynamics of the Evacuated Tube Transportation System from   Subsonic to Supersonic. Energies, 15(9), 3098. 
Qi-liang, L., Zhuo-ming, L., Meng-han, O., & Zhi-gang, Y.   (2022). Coherence and reduced order analyses of flow field and aerodynamic   noise for full-scale high-speed trains pantograph. Applied Acoustics, 193,   108777. 
Yang, Z., Zhou, B., Yang, Z., Yi, X., Du, Y., & Jin, Z.   (2022). Impingement and splashing of a supercooled large droplet on a   freezing water film. International Journal of Multiphase Flow, 157,   104263. 
Wei, A., Yang, Z., Tang, L., Xiong, B., Wang, P., & Jin, Z.   (2022). Temperature measurements in the freezing supercooled water droplet by   utilizing molecular tagging thermometry technique. Review of Scientific   Instruments, 93(7), 074901. 
杨哲,金哲岩*,余放,于雷,杨志刚.(2022).冰雹撞击飞机相关问题的研究综述,气动研究与实验,34(03)27-40.
Yang, Z., Yu, H., Wang, Y., & Shen, Z. (2022). Application   of immersed boundary-lattice boltzmann method in failure of automobile door   sealing strip. Proceedings of the Institution of Mechanical Engineers, Part   D: Journal of Automobile Engineering, 095440702211218. 
Li, C., Zhu, J., Hu, Z., Lei, Z., & Zhu, Y. (2022).   Investigation on aerodynamic noise generated from the simplified high-speed   train leading cars. International Journal of Aeroacoustics, 21(3-4),   218–238. 
Zhu, J., Hu, Z., Xia, C., & Li, Q. (2022). Numerical   investigation on the flow underneath a high-speed train of six coaches   marshalled with different bogies. Proceedings of the Institution of   Mechanical Engineers, Part F: Journal of Rail and Rapid Transit,   095440972211329. 
朱剑月,程冠达,陈力,高阳 & 张清.(2022).高速列车排障器底部后端扰流对转向架区域流场与气动噪声特性的影响.   中国铁道科学(06),119-130.
Zhao, L., Guo, B., & Yang, Z. (2022). An experimental   investigation on the evaporation and condensation heat transfer of air-cooled   multi-port flat heat pipes. International Journal of Heat and Mass Transfer,   187, 122554.  
Zhao, L., Li, T., Guo, B., Wang, J., Zhu, Z., Zhang, J., Zhang,   H., & Yang, Z. (2022). Improving aero-thermal environment in vehicle   under-hood through small modification upstream the cooling module.   Proceedings of the Institution of Mechanical Engineers, Part D: Journal of   Automobile Engineering, 095440702210859. 
Xu, X., Zhao, L., & Yang, Z. (2022). Field Experimental   Investigation on Human Thermal Comfort in Vehicle Cabin. SAE Technical Paper   Series.  
邵景峰,杨志刚,杨丽蓉 & 黄乐清.(2022).服务设计视域下的品牌标志再设计服务流程优化.   包装工程(04),322-331. 
陈羽,柳壹明,毛懋,李启良,王毅刚 & 杨志刚..高速列车底部结构参数对气动噪声影响规律. 西南交通大学学报.
Ma, Y., Mohebbi, R., Yang, Z., & Sheremet, M. (2022).   Thermal performance of an environmentally friendly nanoliquid in a cabinet   with two l-shaped heaters: application for electronic cooling. International   Journal of Numerical Methods for Heat & Fluid Flow, 32(12),   3637–3656. 
Yu, X., Jia, Q., & Yang, Z. (2022). Comprehensive Study of   the Aerodynamic Influence of Ground and Wheel States on the Notchback   DrivAer. Energies, 15(3), 1124. 
邵景峰,杨志刚,杨再峰 & 郑恩泽.(2022).基于事件相关电位绝对时间标记法的汽车造型语义评价方法.   同济大学学报(自然科学版)(08),1207-1214.
Yang, Z., Zhou, B., Jin, Z., Yang, Z., Yi, X., & Du, Y.   (2022). Impingement of a water droplet onto a shear-driven water film.   Experiments in Fluids, 63(12).