瞿叶高 副教授
所在系所振动、冲击、噪声研究所
办公电话-832
通讯地址上海交大机械与动力工程学院A楼832室
电子邮件quyegao@sjtu.edu.cn
个人主页http://scholar.google.com/citations?user=LADp6HMAAAAJ&hl=zh-CN&oi=ao


教育背景 2009.09 - 2014.09 上海交通大学 博士
2004.09 - 2007.07 中国地质大学(北京) 硕士
2000.09 - 2004.07 中国地质大学(北京) 学士

工作经历 2019.01 - 至今 上海交通大学，机械与动力工程学院，振动所，副教授，博导
2017.03 - 2018.12 上海交通大学，机械与动力工程学院，振动所，特别副研究员，博导
2015.02 - 2017.02 美国弗吉尼亚理工大学，工学院力学系，博士后
2014.10 - 2017.02 上海交通大学，机械与动力工程学院，博士后

研究方向 (1) 智能结构振动与噪声控制
(2) 智能材料传感器和驱动器设计
(3) 复合材料结构振动与声学
(4) 流固耦合动力学与流致振动
欢迎机械、力学等专业的毕业生加盟从事硕士和博士研究。

科研项目 2020 - 2021 中央军委科技委国防科技创新特区项目，XXXX振动和气动噪声研究，负责人
2020 - 2022 国家优秀青年科学基金项目，水下航行器耦合系统非线性动力学，负责人
2018 - 2021 大型先进压水堆核电站国家重大科技专项计划，管系流致振动机理与试验，负责人
2018 - 2020 上海市空间飞行器机构重点实验室课题，热环境下飞行器复合材料加筋壁板非线性动力学研究， 负责人
2018 - 2020 上海市浦江人才计划项目，负责人
2018 - 2020 上海市自然科学基金项目，挠曲电智能材料结构传感与声振控制研究，负责人
2017 - 2019 科技部国家重点实验室自主课题，非线性结构流-声-振耦合建模方法与流噪声机理，负责人
2017 - 2019 国家自然科学基金项目，含脱层损伤复合材料层合板壳非线性声振建模与机理研究，负责人
2016 - 2017 博士后基金项目(特别资助)，含分层损伤加筋层合薄壳非线性声振耦合建模与机理研究，负责人
2015 - 2016 博士后基金项目(一等资助)，曲型加筋复合材料板壳声振特性与优化设计，负责人
2010 - 2015 重大基础研究项目（973项目）“船舶声辐射机理及演化规律研究”，参与人

代表性论文专著 一、【专著】
[1] G. Meng, Y. Qu. Vibration and Acoustics of Composite Structures: Theory and Applications. Elsevier, P500，to appear in 2020.
[2] 孟光, 瞿叶高 著．《复合材料结构振动与声学》．国防工业出版社, P375, 2017. (获国防科技图书出版基金资助, ISBN: 978-7-118-11196-5)
二、期刊论文
[62] Yisheng Zheng, Junxian Zhang, Yegao Qu, Guang Meng. Adaptive nonreciprocal wave attenuation in linear piezoelectric metastructures shunted with one-way electrical transmission lines.
[61] Fangtao Xie, Yegao Qu, Guang Meng. Numerical analyses of nonlinear propagation of finite-amplitude acoustic waves from large-amplitude vibrational solids in fluid.
[60] Fangtao Xie, Yegao Qu, Junxian Zhang, Guang Meng. Numerical analyses of nonlinear acoustic wave radiation behaviors of vibrational objects immersed in infinite fluid.
[59] Junzhe Zhu, Yegao Qu, Junxian Zhang, Heng Su, Guang Meng. A multi-layer overlapping structure for continuous broadband acoustic wave absorption at lower-frequencies.
[58] Y.Qu, F.Xie, H. Su, G. Meng. Numerical analysis of stick-slip induced nonlinear vibration and acoustic responses of composite laminated plates with friction boundaries. Composite Structures, 2021, 258, 113316.
[57] J. Zhang, Y. Qu, F. Xie, Z. Peng, W. Zhang, G. Meng. Investigations on nonlinear aerothermoelastic behaviors of multilayered composite panels subject to frictional boundaries and random acoustic loads in supersonic flow. Thin-Walled Structures, 2021, 158, 107180
[56] Li, J.-S., Qu, Y.-G., Hua, H.-X. Numerical analysis of added mass and damping of elastic hydrofoils. Journal of Hydrodynamics, 2020, 32(5), pp. 1009-1023
[55] J. Hu, W. Chen, S. Ren, S. Zhang, Y. Qu, Y. Yin, D. Yang. Building performance monitoring and analysis of a large-span aerogel-membrane airport terminal. Engineering Structures, 2020, 219, 110837
[54] F. Xie, Y.Qu, M.A. Islam, G. Meng. A sharp-interface Cartesian grid method for time-domain acoustic scattering from complex geometries. Computers & Fluids, 2020, 202, 104498.
[53] J Li, Y Qu, Z Zhang, H Hua. Parametric analysis on hydroelastic behaviors of hydrofoils and propellers using a strongly coupled finite element/panel method. Journal of Marine Science and Technology, 2020, 25 (1), 148-161
[52] Y. Qu, D.Liang, G. Meng. Structural-acoustic analysis of multilayered cylindrical shells carrying rotational components attached by nonlinear compliant mounts. European Journal of Mechanics / A Solids, 2020, 83, 104032.
[51] J. Hu, W. Chen, Y. Qu, D. Yang. Safety and serviceability of membrane buildings: A critical review on architectural, material and structural performance. Engineering Structures, 2020, 210, 110292
[50] Z. Li, B. Wen, X. Dong, Z. Peng, Y. Qu, W. Zhang. Aerodynamic and aeroelastic characteristics of flexible wind turbine blades under periodic unsteady inflows. Journal of Wind Engineering and Industrial Aerodynamics, 2020, 197, 104057
[49] Z.Li, B.Wen, Z.Peng, X.Dong, Y.Qu. Dynamic modelling and analysis of wind turbine drivetrain considering the effects of non-torque loads. Applied Mathematical Modelling, 2020, 10.1016/j.apm.2020.02.018.
[48] J.Hu, W.Chen, Y.Li, Y.Qu, B.Zhao, D.Yang. Temperature-stress-time methodology for flat-patterning ETFE cushions in use for large-span building structures. Engineering Structures, 2020, 204, 109607
[47] Y. Qu, F. Xie, G. Meng. Nonlinear dynamic and acoustic analysis of orthogonally stiffened composite cylindrical shells containing piecewise isolators. Journal of Sound and Vibration, 2019， 456: 199-220.
[46] R. Shi, Y. Qu, R.C. Batra. Numerical simulation of under water explosion wave propagation in water-solid-air/water system using ghost fluid/solid method. Journal of Fluids and Structures, 2019, 90, 354-378.
[45] J.Li, Y.Qu, Y.Chen, H.Hua. A numerical method for predicting hydroelastic responses of marine propeller-shafting system. Ocean Engineering, Revised.
[44] F. Xie, Y. Qu, W. Zhang, Z. Peng, G. Meng. Nonlinear flutter behaviors of composite laminated panels with local non-smooth friction boundaries. Composite Structures, 2019, 223: 110934.
[43] Y. Qu, Z. Peng, W. Zhang, G. Meng. Nonlinear vibro-acoustic behaviors of coupled sandwich cylindrical shell and spring-mass-damper systems. Mechanical Systems and Signal Processing, 2019 124: 254-274.
[42] Y. Qu, W. Zhang, Z. Peng, G.Meng. Nonlinear structural-acoustic responses of three-dimensional elastic cylindrical shells with attached internal structures. Applied Acoustics, 2019, 149:143-155.
[41] F. Xie, Y. Qu, W. Zhang, Z. Peng, G. Meng. Nonlinear aerothermoelastic analysis of composite laminated panels using a general higher-order shear deformation zig-zag theory. International Journal of Mechanical Sciences, 2019, 150: 226-237.
[40] J. Li, Y. Qu, Z.Zhang, H.Hua. Parametric analysis on hydroelastic behaviors of hydrofoils and propellers using a strongly coupled finite element/panel method. Journal of Marine Science and Technology, 2019，doi.org/10.1007/s00773-019-00638-z.
[39] Y. Qu, W. Zhang, Z. Peng, G. Meng. Time-domain structural-acoustic analysis of composite plates subjected to moving dynamic loads, Composite Structures, 2019, 208:574-584.
[38] J. Li, Y. Qu, Y.Chen, H. Hua. Investigation of added mass and damping coefficients of underwater rotating propeller using a frequency-domain panel method. Journal of Sound and Vibration, 2018 432: 602-620.
[37] J. Su, Z. Lei, Y. Qu, H. Hua. Effects of non-axisymmetric structures on vibro-acoustic signatures of a submerged vessel subject to propeller forces. Applied Acoustics, 2018, 133:28-37.
[36] Y. Qu, R. Shi, R. C. Batra. An immersed boundary formulation for simulating high speed compressible viscous flows with moving solids. Journal of Computational Physics, 2018, 354: 672-691.
[35] J.Su, K.Zhou, Y.Qu, H.Hua. A variational formulation for vibration analysis of curved beams with arbitrary eccentric concentrated elements. Archive of Applied Mechanics, 2018, 88(7): 1089–1104.
[34] Y. Qu, R.C. Batra. Constrained moving-least squares immersed boundary method for fluid-structure interaction analysis. International Journal for Numerical Methods in Fluids, 2017, 85: 675-692.
[33] J. Li, Y. Qu, H. Hua. Hydroelastic analysis of underwater rotating elastic marine propellers by using a coupled BEM-FEM algorithm. Ocean Engineering, 2017, 146, 178–191.
[32] J. Li, Y. Qu, H. Hua. Numerical analysis of added mass and damping of elastic hydrofoils. Journal of Hydrodynamics, 2017, accepted.
[31] J. Li, Z. Rao, J. Su, H. Hua, Y. Qu. A numerical method for predicting the hydroelastic response of marine propellers. Applied Ocean Research, 2018, 74, 188–204
[30] J.Su, H. Hua, Y. Qu. Modal coupling in the vibroacoustic responses of submerged spherical-cylindrical-spherical shells stiffened by ribs and plates, Noise Control Engineering Journal, 2018, 66 (1): 45-55.
[29] S Ren, X Long, Y Qu, G Meng. A semi-analytical method for stability analysis of milling thin-walled plate. Meccanica,2017, 52 (11-12): 2915-2929.
[28] Y. Qu, J. Su, H. Hua, G. Meng. Structural vibration and acoustic radiation of coupled propeller-shafting and submarine hull system due to propeller forces. Journal of Sound and Vibration, 2017,401,76–93..
[27] Y. Qu, G. Meng. Nonlinear vibration and sound radiation of composite sandwich plates with skin‐core debondings. AIAA Journal, 2017, 55(5): 1723-1733.
[26] Y. Qu, G. Meng. Prediction of acoustic radiation from functionally graded shells of revolution in light and heavy fluids. Journal of Sound and Vibration, 2016, 376, 112-130.
[25] C. Li, J. Wang, Y. Qu, Z. Zhang, H. Hua. Numerical and experimental investigation on vibro-acoustic response of a shaft-hull system. Engineering Analysis with Boundary Elements, 2016, 71, 129-139.
[24] B. Zhao, J. Hu, W. Chen, Z. Qiu, J. Zhou, Y. Qu, B Ge. Photothermal performance of an amorphous silicon photovoltaic panel integrated in a membrane structure. Journal of Physics D: Applied Physics 49 (39), 395601.
[23] X. Xie, H. Zheng, Y. Qu. A variational formulation for vibro‐acoustic analysis of a panel backed by an irregularly‐bounded cavity. Journal of Sound and Vibration, 2016, 373, 147–163
[22] J. Hu, W. Chen, Q. Cai, C. Gao, B. Zhao, Z. Qiu, Y. Qu. Structural behavior of the PV–ETFE cushion roof. Thin-Walled Structures, 2016, 101, 169-180.
[21] Y. Qu, H. Hua, G. Meng. Vibro-acoustic analysis of coupled spherical- cylindrical- spherical shells stiffened by ring and stringer reinforcements. Journal of Sound and Vibration, 2015, 355, 345-359.
[20] Y. Qu, G. Meng. Vibro-acoustic analysis of multilayered shells of revolution based on a general higher-order shear deformable zig-zag theory. Composite Structures, 2015, 134, 689-707.
[19] Y. Qu, S. Wu, H. Li, G. Meng. Three-dimensional free and transient vibration analysis of composite laminated and sandwich rectangular parallelepipeds: Beams, plates and solids. Composites Part B: Engineering, 2015, 73, 96-110.
[18] B. Zhao, W. Chen, J. Hu, Z. Qiu, Y. Qu, B. Ge. A thermal model for amorphous silicon photovoltaic integrated in ETFE cushion roofs. Energy Conversion and Management, 2015, 100, 440-448.
[17] J. Hu, W. Chen, Z. Qiu, B. Zhao, J. Zhou, Y. Qu. Thermal performances of ETFE cushion roof integrated amorphous silicon photovoltaic. Energy Conversion and Management, 2015, 106, 1201-1211.
[16] Y. Qu, G. Meng. Dynamic analysis of composite laminated and sandwich hollow bodies of revolution based on three-dimensional elasticity theory. Composite Structures, 2014, 112, 378-396.
[15] Y. Qu, G. Meng. Three-dimensional elasticity solution for vibration analysis of functionally graded hollow and solid bodies of revolution. Part I: Theory. European Journal of Mechanics - A: Solids, 2014, 44, 222-233.
[14] Y. Qu, G. Meng. Three-dimensional elasticity solution for vibration analysis of functionally graded hollow and solid bodies of revolution. Part II: Application. European Journal of Mechanics - A: Solids, 2014, 44, 234-248.
[13] Y. Qu, X. Long, S. Wu, G. Meng. A unified formulation for vibration analysis of composite laminated shells of revolution including shear deformation and rotary inertia. Composite Structures, 2013, 98, 169-191.
[12] S. Wu, Y. Qu, H. Hua. Vibration characteristics of a spherical-cylindrical- spherical shell by a domain decomposition method. Mechanics Research Communications, 2013, 49, 17-26.
[11] S. Wu, Y. Qu, G. Yuan, H. Hua. Free vibration of laminated orthotropic conical shell on Pasternak foundation by a domain decomposition method. Journal of Composite Materials, 2015, 49(1), 35-52.
[10] S. Wu, Y. Qu, H. Hua. Vibrations characteristics of joined cylindrical- spherical shell with elastic-support boundary conditions. Journal of Mechanical Science and Technology, 2013, 27, 1265 -1272.
[9] Y. Qu, G. Yuan, S. Wu, G. Meng. Three-dimensional elasticity solution for vibration analysis of composite rectangular parallelepipeds. European Journal of Mechanics - A: Solids, 2013, 42, 376-394.
[8] Y. Qu, X. Long, G. Yuan, G. Meng. A unified formulation for vibration analysis of functionally graded shells of revolution with arbitrary boundary conditions. Composites Part B: Engineering, 2013, 50, 381-402.
[7] Y. Qu, X. Long, H. Li, G. Meng. A variational formulation for dynamic analysis of composite laminated beams based on a general higher-order shear deformation theory. Composite Structures, 2013, 102, 175-192.
[6] Y. Qu, S. Wu, Y. Chen, H. Hua. Vibration analysis of ring-stiffened conical – cylindrical–spherical shells based on a modified variational approach. International Journal of Mechanical Sciences, 2013, 69, 72-84.
[5] Y. Qu, H. Hua, G. Meng. A domain decomposition approach for vibration analysis of isotropic and composite cylindrical shells with arbitrary boundaries. Composite Structures, 2013, 95, 307-321.
[4] Y. Qu, Y. Chen, X. Long, H. Hua, G. Meng. Free and forced vibration analysis of uniform and stepped circular cylindrical shells using a domain decomposition method. Applied Acoustics, 2013, 74(3), 425-439.
[3] Y. Qu, Y. Chen, X. Long, H. Hua, G. Meng. A modified variational approach for vibration analysis of ring-stiffened conical–cylindrical shell combinations. European Journal of Mechanics - A: Solids, 2013, 37, 200-215.
[2] Y. Qu, Y. Chen, Y. Chen, X. Long, H. Hua, G. Meng. A domain decomposition method for vibration analysis of conical shells with uniform and stepped thickness. Journal of Vibration and Acoustics-Transactions of the ASME, 2013, 135(1), 011014 - 1-011014-13.
[1] Y. Qu, Y. Chen, X. Long, H. Hua, G. Meng. A variational method for free vibration analysis of joined cylindrical-conical shells. Journal of Vibration and Control, 2013, 19, 2319-2334.

三、会议论文
[17] Yegao Qu. Structural-acoustic interactions of elastic structures containing Nonlinearities. International Symposium on High-fidelity Computational Methods & Applications, 13 – 16 December, 2019, Shanghai, China.
[16] H. Su, Y. G. Qu, S. C. Zhou, Y. Zhou, T. Wu, Z. K. Peng. Fluid-structure interaction analysis of elastic pipes with gas-liquid two-phase flow. 2nd International Conference on Mechanics of Advanced Materials and Structures, 2019, 19-22 October,Nanjing, China.
[15] Yegao Qu, Guang Meng. An accurate immersed boundary method for fluid-solid interaction simulation. 2nd International Conference on Mechanics of Advanced Materials and Structures, 2019, 19-22 October,Nanjing, China.
[14] Y. Qu, F. Xie, W. Zhang, Z. Peng, G.Meng. Nonlinear structural-acoustic analysis of orthogonally stiffened composite cylindrical shells with piecewise isolators. The 48th International Congress and Exposition on Noise Control Engineering (INTER-NOISE 2019), 2019, 16-19 June, Madrid, Spain.
[13] Y. Qu, W. Zhang, Z. Peng, G. Meng. Nonlinear structural and acoustic responses of debonded sandwich shells. The 47th International Congress and Exposition on Noise Control Engineering (INTER-NOISE 2018), 2018, 26-29 August, Chicago, USA
[12] F. Xie, Y. Qu, W. Zhang, Z. Peng, G. Meng. Nonlinear panel flutter analysis using a general higher-order shear deformation plate theory. 25th International Congress on Sound and Vibration, 2018, 8-12 July, Hiroshima, Japan.
[11] Su, Jinpeng; Qu, Yegao; Zhou, Kai; et al. Modal coupling in the vibro-acoustic responses of submerged coupled shells. The 46th International Congress and Exposition on Noise Control Engineering (INTER-NOISE 2017), 2017, 27-30 August, Hong Kong.
[10] Y. Qu, R.C. Batra. An accurate immersed boundary method for fluid-solid interaction simulation. 2016 Macromolecules Innovation Institute Annual Meeting, 10-12 October, 2016, Blacksburg, USA.
[9] Y. Qu, R.C. Batra. Robust Cartesian grid method for simulating compressible viscous flows with geometrically complex bodies. The 2016 Fall Fluid Mechanics Symposium, 16 November, 2016, Blacksburg, USA.
[8] Y. Qu, G. Meng. Nonlinear vibro-acoustic analysis of composite plates with embedded delaminations. The 23rd International Congress on Sound and Vibration, 10-14 July, 2016, Athens, Greece.
[7] Y. Qu, H. Hua, G. Meng. Structural‐acoustic coupling analysis of a submarine hull due to propeller force. The 23rd International Congress on Sound and Vibration, 10-14 July, 2016, Athens, Greece.
[6] Y. Qu, H. Li, F. Li, G. Meng. Nonlinear vibration and sound radiation from skin/core debonded sandwich plates. The 24th International Congress of Theoretical and Applied Mechanics (ICTAM), 21-26 August, 2016, Montreal, Canada.
[5] Y. Qu, H. Hua, H. Peters, N. Kessissoglou. Modal contributions to the acoustic responses of fluid-loaded shells. 43rd International Congress on Noise Control Engineering, 16-19 November, 2014, Melbourne, Australia.
[4] Y. Qu, S.Wu, X. Long, Y. Chen, H. Hua. Dynamic analysis of complex FGM shell combinations with arbitrary boundary conditions. 17th International Conference on Composite Structures (ICCS17), 17-21 June, 2013, Porto, Portugal.
[3] S. Wu, Y. Qu, G. Yuan, H. Hua. Free vibration of laminated orthotropic conical shell on Pasternak foundation by a domain decomposition method. 17th International Conference on Composite Structures (ICCS17), 17-21 June, 2013, Porto, Portugal.
[2] Y. Qu, H. Hua, Y. Chen, G. Meng. A new variational method for free vibration analysis of conical shells with discontinuity in thickness. The 23rd International Congress of Theoretical and Applied Mechanics (XXIII ICTAM), 19-24 August, 2012, Beijing, China.
[1] Y. Qu, H. Hua, Y. Chen, X. Long, G. Meng. A domain decomposition method for vibration analysis of submarine hulls. ISMA2012 International Conference on Noise and Vibration Engineering, 17-19 September, 2012, Leuven, Belgium.

教学工作 课程名称： 机械动力学与振动
授课对象：本科生
学时数：48
课程名称： 机械与动力仿真实践（机械类）
授课对象：本科生
学时数：64

软件版权登记及专利 【软件著作权】
1. 瞿叶高, 张君贤, 谢方涛. 复合材料壁板非线性气动热弹性振动响应数值计算软件, 2019.
2. 瞿叶高, 宿恒，彭志科，孟光. 复合材料管道流致振动数值计算软件, 2020.

学术兼职 [1] 中国振动工程学会副秘书长
[2] 中国振动工程学会非线性振动专业委员会 委员
[3] 上海市力学学会振动力学专委会副主任
[4] 中国力学学会理性力学和力学中的数学方法专业委员会 委员

荣誉奖励 2020 上海交通大学烛光奖
2019 教育部自然科学一等奖
2019 国家优秀青年科学基金
2018 上海交通大学 十佳班主任
2018 中国振动工程学会青年科技奖
2018 上海市浦江人才计划（A类）
2014 上海市优秀毕业生
2012 教育部“博士研究生学术新人奖”