发布日期:2024-04-06 浏览次数:次
个人经历 Personal experience 工作经历 教育经历 教授(2019年1月-至今),西北工业大学,航空学院,博士后 (2018年1月-2019年1月),香港科技大学机械与航天工程学院,先进气动噪声研究中心AANTC博士后 (2014年6月-2017年12月),英国南安普顿大学工程与环境学院,空中客车噪声研究中心ANTC 博士 (2010年5月-2014年6月)英国南安普顿大学,工程与环境学院硕士(2005年8月-2007年7月) 哈尔滨工业大学,航天学院,一般力学系(振动与控制)本科(2001年9月-2005年7月)西安交通大学,航天学院,工程力学系
教育教学 Education and teaching 招生信息 长期招收博士后,博士研究生,硕士研究生,感兴趣者请邮件联系!(1) 研究团队与英国南安普顿大学和香港科技大学等有长期合作关系,学生将有机会出国联合培养。(2) 鼓励和支持学生积极参与国际会议,开展交流。(3) 为学生就业、后续学术生涯发展提供支持。
科学研究 Scientific Research 主要研究方向(不限于):声学超材料的研究与航空应用气动噪声研究多孔介质声学吸声与隔声的预测与应用仿生声学在飞行器降噪中的应用研究项目:主持项目1. 海外高层次青年人才引进计划项目,600万,2019-20242. 剪切流场中声学超表面的声学特性研究,中央高校基本科研业务费,30万,2019.01-2020.123. 大型飞机舱内声环境预计与声品质评价研究,横向,53万,2019.06-2020.044. 航空降噪材料声学本构参数测试,横向,74万,2019.12-2020.11曾参与项目1. 中国商飞:声传播模拟和声衬设计及实验验证外协技术需求2. 香港创新科技署:Key Technology Development for Aircraft Noise Attenuation3. 空客公司:Aircraft Cabin Noise Reduction Project
学术成果 Academic Achievements 代表性论文:T. Zhao, B. Pan, X. Song, D. Sui, H. Xiao and J. Zhou*. Heuristic Approaches Based on Modified Three-Parameter Model for Inverse Acoustic Characterisation of Sintered Metal Fibre Materials. Mathematics, 2022, 10(18): 3264.T. Yuan, X. Song, J. Xu, B. Pan, D. Sui, H. Xiao and J. Zhou*. Tunable acoustic composite metasurface based porous material for broadband sound absorption. Composite Structures, 2022, 298: 116014.G. Ji, J. Xu, J. Zhou* and W. Kang*. The exploration of transmission property by using the circular-interface types of porous acoustic metamaterials. International Journal of Mechanical Sciences, 2022, 230: 107558.H. Xiao*, C. Xu, F. Yuan, X. Zhang, J. Bai and J. Zhou. Impact Response Prediction Method of Packaging Systems with a Key Component considering Different Excitations and Cushioning Materials. Shock and Vibration, 2022, 2022.H. Xiao, C. Xu, P. Yu, J. Gu, D. Sui* and J. Zhou. Effects of general boundary conditions on vibro-acoustic responses of the panel-cavity system induced by a turbulent boundary layer. Journal of Vibration and Control, 2022: 10775463211066724.H. Xiao, T. Yuan, X. Song, J. Chen, J. Zhou, J. Gu and D Sui*. Broadband Sound Absorption of Subwavelength Porous Meta-Liner. Frontiers in Materials, 2022, 9: 845597.W. Sun, B. Pan, X. Song, H. Xiao, J. Zhou and D. Sui*. A novel sound absorber design of nanofibrous composite porous material. Materials & Design, 2022, 214: 110418.H. Xiao, C. Xu, R. Wang, P. Yu*, J. Zhou and J. Bai. A Nonlinear Model and Parameter Identification Method for Rubber Isolators under Shock Excitation in Underwater Vehicles. Journal of Marine Science and Engineering, 2021, 9(11): 1282.D. Sui*, J. Huber* and J. Zhou. Boundary influence on the fields and arrangement of the needle domains in barium titanate single crystals. European Journal of Mechanics-A/Solids, 2021, 89: 104322.J. Guo and J. Zhou*. An ultrathin acoustic carpet cloak based on resonators with extended necks. Journal of Physics D: Applied Physics, 2020, 53(50): 505501.X. Han, P. Yu*, J. Bai, J. Zhou and X. Song. Hybrid computational aeroacoustics approach based on the synthetic turbulence model in Eulerian description. Aerospace Science and Technology, 2020, 106: 106077.G. Ji*, Y. Fang, and J. Zhou*, Porous acoustic metamaterials in an inverted wedge shape. Extreme Mechanics Letters. 2020, 100648.G. Ji*, J. Cai, Y. Fang, S. Yao, J. Zhou* and J. Kim*, Nano-fibrous composite sound absorbers inspired by owl feather surfaces. Applied Acoustics, 2019,156, 151-157. G. Ji*, Y. Fang, J. Zhou and X. Huang*, Porous labyrinthine acoustic metamaterials with high transmission loss property. Journal of Applied Physics, 2019, 125:215110.Y. Fang*, X. Zhang, J. Zhou, J. Guo and X. Huang*, Acoustic metaporous layer with composite structures for perfect and quasi-omnidirectional sound absorption. Composite Structures, 2019, 223:110948.X. Zhao*, M Yang, J. Zhou and J. Lei, An algorithm to separate wind tunnel background noise from turbulent boundary layer excitation. Chinese Journal of Aeronautics, 2019, 32(9), 2059-2067.Y. Fang, X. Zhang* and J. Zhou*, Acoustic porous metasurface for excellent sound absorption based on wave manipulation. Journal of Sound and Vibration, 2018, 434, 273-283.J. Zhou*, X. Zhang* and Y. Fang, Analytical modelling for predicting the sound field of planar acoustic metasurface. Journal of Applied Physics, 2018, 123:033106.X. Zhao* and J. Zhou*, Modification of turbulent boundary layer model based on wall fluctuations measurement. Applied Acoustics, 2018,133, 168-172. X. Zhao*, W. Song, J. Zhou and B. Ai, Scaling procedures of the cabin noise generated by turbulent boundary layer excitation. Chinese Journal of Aeronautics, 2018, 31(3), 481-489.J. Zhou*, X. Zhang* and Y. Fang, Three-dimensional acoustic characteristic study of porous metasurface. Composite Structures, 2017, 176, 1005-1012.Y. Fang, X. Zhang* and J. Zhou*, Experiments on reflection and transmission of acoustic porous metasurface with composite structure. Composite Structures, 2017, 185, 508-514. Y. Fang*, X. Zhang* and J. Zhou, Sound transmission through an acoustic porous metasurface with periodic structures. Applied Physics Letters, 2017, 110, 171904. J. Zhou*, A. Bhaskar and X. Zhang, Sound transmission through double cylindrical shells lined with porous material under turbulent boundary layer excitation. Journal of Sound and Vibration, 2015, 357 253-268.J. Zhou*, A. Bhaskar and X., Zhang, The effect of external mean flow on sound transmission through double-walled cylindrical shells lined with poroelastic material. Journal of Sound and Vibration, 2014, 333(7) 1972-1990. J. Zhou*, A. Bhaskar and X., Zhang, Optimization for sound transmission through a double-wall panel. Applied Acoustics, 2013, 74(12) 1422-1428. J. Zhou*, A. Bhaskar and X., Zhang, Sound transmission through a double-panel construction lined with poroelastic material in the presence of mean flow. Journal of Sound and Vibration, 2013, 332(16) 3724-3734.
社会兼职 Social Appointments 1. 《航空学报》中英文版青年编委2. Mathematics(JCR1区,中科院2区)杂志的Guest Editor2. 陕西省振动工程协会副理事长3. 中国振动工程学会振动与噪声控制专业委员4. 中国商飞大飞机噪声研究与控制联合实验室委员