华宏星 教授
所在系所振动、冲击、噪声研究所
办公电话**
通讯地址上海交大机械与动力工程学院A楼814室
电子邮件hhx@sjtu.edu.cn
个人主页


教育背景 1. 1990/09 - 1993/12，比利时，布鲁塞尔大学，应用力学，博士
2. 1989/09 - 1990/07，比利时，布鲁塞尔大学，应用力学，硕士
3. 1979/02 - 1983/02，上海交通大学机电分校，机械工程，学士

工作经历 1. 2001/01 - 至今，上海交通大学，机械与动力工程学院，教授
2. 1997/01 - 2000/12，上海交通大学，机械与动力工程学院，副教授
3. 1995/05 - 1996/12，上海交通大学，机械与动力工程学院，讲师
4. 1993/12 - 1995/05，比利时，布鲁塞尔大学，博士后

研究方向 振动噪声分析与控制
冲击防护理论与应用
现代隔振减振方法

科研项目 （1） 船舶螺旋桨激励力测试技术研究，十三五预研，2016-2020
（2） 2012/01- 2015/12，手性结构材料的水下隔声抑振机理，**，自然基金面上项目，64万，结题，主持
（3） 2010/01 - 2014/12，艉部激励耦合振动噪声激励研究，613134，国防973项目，2500万，结题，技术首席
（4） 2010/01 - 2015/12，振动与噪声控制技术军事需求及技术体系研究，总装备部十二五预研项目，310万，结题，主持
（5） 2010/01 - 2015/12，振动与噪声控制技术发展战略研究，总装备部十二五预研项目，300万，结题，主持
（6） 2009/06- 2013/12，XX机械噪声预报与控制基础研究，国防973项目课题，700万，结题，主参
（7） 2009/01 - 2012/12，舰载设备冲击试验系统（5000kg级），国防重点项目，740万，结题，主持
（8） 2005/05 - 2009/12，XXX舰抗冲隔离器及防护试验设备研制，海军武器装备研制项目，2100万，结题，主持
（9） 2005/10 - 2010/12，抗冲击及生命力技术、抗爆抗冲击技术，海军武器装备预研项目，210万，结题，主持
（10） 2004/10 - 2006/12，舰船抗冲瓦结构新概念及水下抗爆机理研究，海军武器装备研制项目，120万，结题，主持

代表性论文专著 [1] 傅志方，华宏星，“模态分析理论及其应用”， 上海交通大学出版社，2000
[2] 汪玉，华宏星，“舰船现代冲击理论及应用”，科学出版社，2005
[3] 吴天行，华宏星，“机械振动“，清华科学出版社，2014

[1] Z. Jin, C. Yin, Y. Chen, H. Hua. Coupling Runge-Kutta discontinuous Galerkin method to finite element method for compressible multi-phase flow interacting with a deformable sandwich structure. Ocean Engineering, 2017, 130: 597-610.
[2] Z. Jin, C. Yin, Y. Chen, Z. Zhang, H. Hua. Predict Effective Thickness of Sacrificial Cellular Claddings to Shallow/Deep Water Blast. Ocean Engineering, 2017, 140: 135-145.
[3] C. Yin, Z. Jin, Y. Chen, H. Hua. The underwater blast resistance of sacrificial claddings with stepwise graded cellular cores. ASME Journal of Offshore Mechanics and Arctic Engineering, 2017, 139(2): 021602.
[4] Z. Zhang, Y. Chen, X. Huang, H. Hua. Underwater explosion approximate method research on ship with polymer coating. Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment, 2017, 231(2): 384-394.
[5] 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.
[6] Z. Zhang, K. Sabra, J. Meaud, H. Hua. A general substructuring synthesis method for the analysis of complex vibro-acoustic interaction systems. The Journal of the Acoustical Society of America, 2017, 141(5): 4034-4034.
[7] J. Tian, Z. Zhang, H. Hua. Flow-induced vibration analysis of elastic propellers in a cyclic inflow: An experimental and numerical study. Applied Ocean Research, 2017, 65: 47-59.
[8] Y. Chen, L. Wang, H. Hua. Longitudinal Vibration and Unsteady Thrust Transmission of the Rim Driven Thruster Induced by Ingested Turbulence，Ocean Engineering, 2017, 131: 149-161.
[9] Y. Chen, L. Wang, H. Hua，Longitudinal vibration of marine propeller-shafting system induced by inflow turbulence，Journal of Fluids and Structures, 2017, 68: 264-278.
[10] X. Huang, Z. Ni, Z. Zhang, H. Hua. Stiffness optimization of marine propulsion shafting system by FRF-based substructuring method and sensitivity analysis. Ocean Engineering, 2017, 144: 243-256.
[11] X. Huang, J. Su, L. Ren, H. Hua. Development of curved beam periodic structure in broadband resonance suppression for cylindrical shell structure. Journal of Vibration and Control, 2017, 23(8):1267-1284.
[12] X. Huang, Z. Zhang, J. Sun, Z. Zhang, H. Hua. Analytical stiffness model of a fluid-filled U-shaped bellows based three-parameter fluid damper for micro-vibration suppression. Aerospace Science and Technology, 2017, 69: 357-369.
[13] C. Li, X. Huang, H. Hua. Dynamic modeling and analysis of axial vibration of a coupled propeller and shaft system. Journal of Mechanical Science and Technology, 2016, 30(7): 2953-2960.
[14] D. Zhu, X. Huang, H. Hua, H. Zheng. Vibration isolation characteristics of finite periodic tetra-chiral lattice coating filled with internal resonators. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2016, 230(16):2840-2850.
[15] S. Xu, X. Huang, Z. Du, H. Hua. Study on the application and optimization of trichiral raft in a floating raft system. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2016, 230(11):1819-1829.
[16] Z. Zhang, Z. Zhang, B. Jing, H. Hua. A hybrid approach for modelling dynamic behaviors of a rotor-foundation system. Journal of Physics: Conf Ser, 2016, 744(1):1-10
[17] J. Wang, Z. Zhang, H. Hua. Coupled flexural-longitudinal vibrations of Timoshenko double-beam systems induced by mass eccentricities. International Journal of Applied Mechanics, 2016, 8(5):1-22.
[18] C. Li, J. Su, J. Wang, H. Hua. Effects of symmetrical foundation on sound radiation from a submarine hull structure[J]. The Journal of the Acoustical Society of America. 2015, 138: 3195-3201.
[19] Z. Jin, C. Yin, Y. Chen, H. Hua. Graded effects of metallic foam cores for spherical sandwich shells subjected to close-in underwater explosion. International Journal of Impact Engineering, 2016, 94: 23-35
[20] C. Yin, Z. Jin, Y. Chen, H. Hua. One-dimensional response of single/double-layer cellular cladding to water blast. International Journal of Impact Engineering, 2016, 88: 125-138
[21] C. Yin, Z. Jin, Y. Chen, H. Hua. Shock mitigation effects of cellular cladding on submersible hull subjected to deep underwater explosion. Ocean Engineering, 2016, 117: 221-237.
[22] Y. Chen, F. Chen, Z. Du, H. Hua. Influence of Solid Rubber Coating on the Response of Floating Structure to Water Blast Wave, ASME: Journal of Offshore Mechanics and Arctic Engineering, 2016, 138(6): 061302.
[23] Y. Chen, F. Chen, Z. Du, H. Hua. Transient underwater shock response of sacrificed coating with continuous density graded foam core, Composites Part B: Engineering, 2016, 98: 484-495.
[24] X. Huang, J. Sun, H. Hua, Z. Zhang. The isolation performance of vibration systems with general velocity- displacement-dependent nonlinear damping under base excitation: numerical and experimental study. Nonlinear Dynamics, 2016:1-20.
[25] Z. Jin, C. Yin, Y. Chen, H. Hua. One-dimensional analytical model for the response of elastic coatings to water blast. Journal of Fluids and Structures, 2015, 59: 37-56.
[26] F. Xiao, Y. Chen, H. Hua, D. Zhu. Experimental and numerical investigation on the shock resistance of honeycomb rubber coatings subjected to underwater explosion. Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment, 2015, 229(1): 77-94.
[27] D. Zhu, X. Huang, Y. Wang, F. Xiao, H. Hua. Experimental and numerical research on the underwater sound radiation of floating structures with covering layers. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2015, 229(3): 447-464.
[28] S. Xu, X. Huang, H. Hua. A study on the isolation performance of the trichiral lattices with gradient geometry. Journal of Vibration and Control, 2015, 21(16): 3465-3475.
[29] Z. Zhang, Y. Chen, H. Hua, Y. Wang. Underwater explosion research on ship with polymer hull coating. Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment, 2015, 229(2): 147-156
[30] Y. Chen, F. Chen, Z. Du, H. Hua. Protective effect of polymer coating on the circular steel plate response to near-field underwater explosions. Marine Structures, 2015, 40: 247-266.
[31] Y. Chen, F. Chen, Z. Du, H. Hua. Mitigating performance of elastic graded polymer foam coating subjected to underwater shock. Composites Part B: Engineering, 2015, 69: 484-495.
[32] F. Xiao, Y. Chen, H. Hua. Comparative study of the shock resistance of rubber protective coatings subjected to underwater explosion. Journal of Offshore Mechanics and Arctic Engineering, 2014, 136(2): 021402.
[33] F. Xiao, Y. Chen, Y. Wang, H. Hua, D. Zhu. Experimental research on the dynamic response of floating structures with coatings subjected to underwater explosion. Shock and Vibration, 2014, 705256.
[34] Z. Jin, C. Yin, Y. Chen, X. Huang, H. Hua. An analytical method for the response of coated plates subjected to one-dimensional underwater weak shock wave. Shock and Vibration, 2014, 803751.
[35] Z. Zhang, Z. Zhang, X. Huang, H. Hua. Stability and transient dynamics of a propeller–shaft system as induced by nonlinear friction acting on bearing–shaft contact interface. Journal of Sound and Vibration, 2014, 333(12): 2608-2630
[36] X. Liu, X. Huang, H. Hua. Performance of a zero stiffness isolator under shock excitations. Journal of Vibration and Control, 2014, 20(14):2090-2099.
[37] Z. Zhang, F. Chen, Z. Zhang, H. Hua. Vibration analysis of non-uniform Timoshenko beams coupled with flexible attachments and multiple discontinuities. International Journal of Mechanical Sciences, 2014, 80: 131-143.
[38] Z. Zhang, F. Chen, Z. Zhang, H. Hua. Analysis of friction-induced vibration in a propeller–shaft system with consideration of bearing–shaft friction. Journal of Mechanical Engineering Science, 2014, 228(8): 1311-1328.
[39] Z. Zhang, X. Huang, Z. Zhang, H. Hua. On the transverse vibration of Timoshenko double-beam systems coupled with various discontinuities. International Journal of Mechanical Sciences, 2014, 89: 222-241.
[40] Z. Zhang, J. Wang, Z. Zhang, H. Hua. Vibrations of multi-span non-uniform Euler beams with arbitrary discontinuities and complicated boundary conditions. Journal of Ship Mechanics, 2014, 18(9):1129-1141.
[41] X. Huang, J. Sun, H. Hua, Z. Zhang.Modeling and Optimization of Octostrut Vibration Isolation Platform by FRF- Based Substructuring Method. ASCE Journal of Aerospace Engineering, 2015, 28(3), **.
[42] X. Huang, X.Liu, J. Sun, Z. Zhang, H. Hua. Shock isolation performance of a nonlinear isolator using Euler buckled beam as negative stiffness corrector: theoretical and experimental study. Journal of Sound and Vibration, 2015, 345: 178-196.
[43] X. Huang, X.Liu, J. Sun, H. Hua. Effects of stiffness and load imperfection on the isolation performance of a high-static–low-dynamic-stiffness nonlinear isolator under base displacement excitation. International Journal of Non-Linear Mechanics, 2014, 65: 32-43.
[44] X. Huang, X.Liu, J. Sun, H. Hua, Z. Zhang. Vibration isolation characteristics of a nonlinear isolator using Euler buckled beam as negative stiffness corrector: a theoretical and experimental study. Journal of Sound and Vibration, 2014, 333(4): 1132-1148.
[45] X. Huang, X. Liu, J. Sun, H. Hua, Z. Zhang. Effect of the system imperfections on the dynamic response of a high-static-low-dynamic stiffness vibration isolator. Nonlinear Dynamics, 2014, 76: 1157-1167.
[46] X. Huang, X. Liu, H. Hua. On the characteristics of an ultra-low frequency nonlinear isolator using sliding beam as negative stiffness. Journal of Mechanical Science and Technology, 2014,28(3): 813-822.
[47] Z. Zhang, Y. Chen, H. Hua, Y. Wang. Crush dynamics of rubber tube under low velocity impact. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2014, 228(3): 426-440.
[48] J. Sun, S. Jiao, X. Huang, H. Hua.Investigation into the Impact and Buffering Characteristics of a Non-Newtonian Fluid Damper: Experiment and Simulation, Shock and Vibration, 2014, 170464.
[49] C. Ma，H. Hua，F. Xiao. The identification of external forces for a nonlinear vibration system in frequency domain. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science. 2014, 228(9): 1531-1539.
[50] F. Chen, G. Giancarlo, H. Hua. Modeling and Trajectory Control of a Planetary Vehicle through Lagrange Equations, Acc. Sc. Torino - Memorie Sc. Fis. 2014(1): 27-49.
[51] X. Liu, X. Huang, H. Hua. On the characteristics of a quasi-zero stiffness isolator using Euler buckled beam as negative stiffness corrector. Journal of Sound and Vibration, 2013, 332(14): 3359-3376.
[52] J. Sun, X. Huang, X. Liu, F. Xiao, H. Hua. Study on the force transmissibility of vibration isolators with geometric nonlinear damping. Nonlinear Dynamics, 2013, 74: 1103-1112.
[53] X. Huang, H. Hua, Y. Wang, Z. Du. Research on wave mode conversion of curved beam by the wave approach. ASME Journal of Vibration and Acoustics, 2013, 135(3): 031014.
[54] Y. Chen, Z. Zhang, H. Hua. Experimental research on the responses of neoprene coated cylinder subjected to underwater explosions. ASME: Journal of Offshore Mechanics and Arctic Engineering, 2013, 135(1): 011102.
[55] Y. Chen, H. Hua. Performance of an elastic polymer foam cushion in attenuating responses of shipboard standing-men to ship vertical shock. Journal of Vibration and Control, 2013, 19: 1999-2012.
[56] 刘扭扭，张振果，徐时吟，华宏星。基于动力反共振结构的周期细直梁纵向局域共振带隙研究，振动与冲击，2017, 36(24) :142-147
[57] 张振果, 陈锋, 张志谊, 华宏星. 摩擦激励下螺旋桨推进轴系弯-扭耦合振动研究. 机械工程学报, 2014,49(6):74-80.
[58] 王剑, 张振果, 华宏星. 考虑质量偏心Timoshenko 梁的弯-纵耦合固有振动特性研究. 振动与冲击, 2015,34(19): 8-12.
[59] 车凯凯, 张振果, 张志谊, 华宏星. 分布式摩擦激励下轴系振动研究. 振动与冲击, 2014,33(20): 105-109.
[60] 张振果, 张志谊, 王剑，华宏星. 螺旋桨推进轴系摩擦自激扭转振动研究. 振动与冲击, 2013,32(19): 153-158.

教学工作 1. 模态参数辨识，研究生课程，学时36，学分2
2. 弹性力学与有限元，研究生课程，学时54，学分3
3. 现代振动冲击噪声，研究生课程，学时54，学分3

软件版权登记及专利 1. 基于现有舰船隔振系统的改进方法及装置 中国专利ZL 3.2 2017年授权 黄修长，华宏星，任龙龙，徐时吟 上海交通大学
2. 一种主被动一体的隔振装置和隔振平台 中国专利ZL 3.1 2017年授权 黄修长，华宏星，张志谊 上海交通大学
3. 一种用于控制压气机叶片振动的阻尼环装置 中国专利ZL 9.3 2017年授权 黄修长，华宏星 上海交通大学
4. 多自由度超低频大载荷全金属被动隔振器 中国专利ZL 4.2 2017年授权 黄修长，刘兴天，徐时吟，华宏星 上海交通大学
5. 一种隔振器多向阻抗矩阵及刚度测试试验装置和试验方法 中国专利ZL 7.1 2017年授权 黄修长，徐时吟，华宏星 上海交通大学
6. 一种液压式动力反共振隔振装置 中国专利ZL 3.1 2017年授权 刘扭扭，董兴建，华宏星 上海交通大学
7. 一种高性能流体阻尼隔振器及并联隔振平台 中国专利ZL 6.9 2017年授权 孙靖雅，王超新，黄修长，张振果，张志谊，华宏星 上海交通大学
8. 用于管路隔振抗冲的金属橡胶-碟簧全金属复合吊架 中国专利ZL 3.9 2016年授权 黄修长，陈锋，殷彩玉，华宏星，谌勇 上海交通大学
9. 用于管路隔振抗冲的金属橡胶-碟簧全金属三向复合支座 中国专利ZL 7.3 2016年授权 陈锋，黄修长，殷彩玉，华宏星，谌勇 上海交通大学
10. 基于波型转换机理和能量局域效应的Moebius隔振器 中国专利ZL 4.2 2015年授权 黄修长，徐时吟，华宏星，张志谊 上海交通大学
11. 基于波型转换的曲梁结构周期浮筏 中国专利ZL 7.9 2015年授权 黄修长，徐时吟，华宏星，张志谊 上海交通大学
12. 欧拉压杆橡胶组合重载低频隔振器 中国专利ZL 0.1 2015年授权 刘兴天，华宏星，黄修长，张志谊，谌勇 上海交通大学
13. 一种减振抗冲击液压缸及其抗冲击方法 中国专利ZL 9.5 2015年授权 焦素娟，郑辉，华宏星 上海交通大学
14. 一种采用可变节流口的载荷自适应安全阀 中国专利ZL 0.3 2015年授权 焦素娟，郑辉，华宏星 上海交通大学
15. 基于多场耦合的抗冲击液压缸及其抗冲击方法 中国专利ZL 6.4 2015年授权 焦素娟，郑辉，华宏星 上海交通大学
16. 可弹性弯曲的抗冲吸能覆盖层 中国专利ZL 5.6 2015年授权 谌勇，华宏星，殷彩玉 上海交通大学
17. 动态试验加载装置 中国专利ZL 3.0 2015年授权 谌勇，华宏星，张志谊 上海交通大学
18. 舰船抗冲击瓦 中国专利ZL 9.8 2007年授权 勾厚渝，华宏星，刘东岳，陈强，杜俭业，李兆俊 中国人民解放军海军装备研究院舰船论证研究所，上海交通大学。
19. 舰船用抗冲击防护地砖 中国专利ZL 8.3 2007年授权 勾厚渝，华宏星，杜俭业，刘东岳 中国人民解放军海军装备研究院舰船论证研究所，上海交通大学
20. 一种考核舰用设备抗冲击能力的双波冲击试验装置 中国专利ZL 4.4 2010年授权 华宏星，刘东岳，焦素娟，杜俭业，张志谊，张磊 中国人民解放军海军装备研究院舰船论证研究所，上海交通大学
21. 能产生负半正弦波形的阻尼装置 中国专利ZL 0.4 2012年授权 张磊，华宏星，杜俭业，焦素娟，史少华 中国人民解放军海军装备研究院舰船论证研究所，上海交通大学。
22. 复合阻尼橡胶钢丝绳抗冲隔振器 中国专利ZL **.0 2006年授权 勾厚渝，华宏星 上海交通大学
23. 组装式复合胶泥抗冲击限位器 中国专利ZL 4.9 2011年授权 贾九红，杜俭业，华宏星，张磊，刘东岳，李炜，罗斌 中国人民解放军海军装备研究院舰船论证研究所，上海交通大学

学术兼职 1、2015.8-至今，中国振动工程学会，副理事长；
2、2012.8-2016.7，中国轮机学会噪声与振动控制专业委员会，主任；
3、2014.8-2018.8，上海市振动工程学会，理事长。

荣誉奖励 1. 授奖单位，中华人民共和国国务院。奖励名称，舰艇抗冲瓦，国家技术发明奖二等奖，获奖日期2014.12，奖励证号 2014-F-24501-2-02-R03
2. 授奖单位，中华人民共和国国务院，奖励名称，水面舰艇水下爆炸冲击防护工程，国家科学技术进步奖二等，获奖日期2013.12，奖励证号 2013-J-24501-2-01-R09
3. 授奖单位，机械工业联合会，奖励名称，液压式大负载双波冲击试验系统研制，中国机械工业可行技术奖二等奖，获奖日期，2015.10 奖励证号 R507062-01
4. 授奖单位，中国人民解放军总装备部，奖励名称，舰用设备垂向双波冲击试验机研制及应用，军队科技进步壹等奖，获奖日期，2014.12
5. 授奖单位，中国人民解放军总装备部,奖励名称，舰艇抗冲瓦，军队科技进步壹等奖，获奖日期，2013.12