代表性论文专著
推进器-轴-艇振动噪声分析及控制
1、Xiuchang Huang*, Shuaikang Shi, Zhiwei Su, Wanghao Tang, Hongxing Hua. Reducing underwater radiated noise of a SUBOFF model propelled by a pump-jet without tip clearance: Numerical simulation. Ocean Engineering 243 (2022) 110277. (无间隙泵喷激励下泵-艇耦合系统降噪机理及效果)
2、Shuaikang Shi, Wanghao Tang, Xiuchang Huang*, Hongxing Hua. Effects of the stator prewhirl angle on the unsteady force under uniform and turbulent inflow for a pump-jet propulsor: a numerical study. Ships and Offshore Structures, DOI: 10.1080/17445302.2021.2010445(定子预旋角对泵喷宽带力的影响研究)
3、Shuaikang Shi, Xiuchang Huang, Zhiqiang Rao, Zhiwei Su, Hongxing Hua. Numerical analysis on flow noise and structure-borne noise of fully appended SUBOFF propelled by a pump-jet. Engineering Analysis with Boundary Elements 138(1):140-158. 2022.(泵-轴-艇耦合系统在泵喷分布式脉动压力激励下的流噪声和结构噪声对比分析)
4、Zhiwei Su, Shuaikang Shi, Xiuchang Huang , Zhiqiang Rao , Hongxing Hua. Vibro-acoustic characteristics of a coupled pump-jet-Shafting system-SUBOFF model under distributed unsteady hydrodynamics by a pump-jet. Ocean Engineering 235(8):109429. (泵-轴-艇耦合系统在泵喷分布式脉动压力激励下的结构噪声特性分析)
5、黄修长*,师帅康,饶志强,苏智伟,华宏星。激励力施加方法对泵喷推进器结构辐射噪声的影响分析。振动与冲击,2021。(泵喷推进器不同脉动力施加方法对其振动声辐射的影响)
6、Shi Shuaikang, Chen Yuxi, Su zhiwei, Huang Xiuchang*, Hua Hongxing. Unsteady hydrodynamics and vibro-acoustic responses for a pump-jet propelled suboff under distributed pulsation force. Internoise 2020.(泵喷推进器分布式脉动压力激励下泵喷-suboff耦合系统振动声辐射特性)
7、Huang Xiuchang, Zheng Zhiwei, Li Feng, Hua Hongxing, Zhang Zhenguo. Vibration transmission control of propeller-shaft-hull coupled system based on piezoelectric shunt with two negative capacitances. The 27th International Congress on Sound and Vibration. 2020.7.12-16. Prague, Czech Republic.(双负电容压电分流对轴系一阶纵振振动控制机理)
8、Huang Xiuchang*, Su zhiwei, Zhang Zhenguo, Hua Hongxing. Application of a dynamic vibration absorber with negative stiffness for control of a marine shafting system. Ocean Engineering, 2018, 155, 131-143.(负刚度动力吸振推力轴承的无谐振峰振动传递控制机理)
9、Huang Xiuchang*, Su zhiwei, Hua Hongxing. Vibration transmission suppression for propeller-shaft system by hub-embedded damping ring under broadband propeller force. Nonlinear Dynamics, 2018, 91(4), 2651-2666.(阻尼环对螺旋桨同相振动模态的阻尼控制机理)
10、Huang Xiuchang*, Ni Zhen, Zhang Zhenguo, Hua Hongxing. Stiffness optimization of marine propulsion shafting system by FRF-based substructuring method and sensitivity analysis. Ocean Engineering, 144(2017): 243-256.(桨轴船体耦合复杂系统轴承及隔振器刚度阻尼优化设计)
11、Li Chenyang, Huang Xiuchang, Hua Hongxing. 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.(桨轴耦合系统动力学建模与分析)
12、Zhang Zhenguo, Huang Xiuchang, Zhang Zhiyi, Hua Hongxing. On the transverse vibration of Timoshenko double-beam systems coupled with various discontinuities,International Journal of Mechanical Sciences, 2014, 89: 222-241.
高性能及智能振动控制(负电容压电分流吸振、负刚度动力吸振、弹性系统动力吸振、高静低动隔振、干摩擦阻尼动力吸振)
1、黎丰,郑智伟,黄修长*,华宏星。湍流脉动激励下板结构辐射噪声的多模态压电分流振动控制方法研究。应用力学学报,2021。(流固耦合板结构双负电容压电分流振动控制机理)
2、贺晓东,黄修长*,华宏星。用于飞轮微振动抑制的黏弹性-干摩擦阻尼环设计。机械工程学报,2021。(干摩擦阻尼动力吸振机理)
3、Huang Xiuchang*, Su Zhiwei, Wang Sen, Wei Xinsheng, Wang Yong, Hua Hongxing. High-frequency disturbance force suppression mechanism of a flywheel equipped with a flexible dynamic vibration absorber,Journal of Vibration and Control,2020,26(23-24):2113-2124.(飞轮的阻尼环动力吸振机理与设计)
4、Huang Xiuchang*, Su Zhiwei, He Xiaodong, Hua Hongxing, Zhang Zhenguo. Micro-vibration control of flywheels with friction rings based on DVA with dry friction interfaces,The 27th International Congress on Sound and Vibration (ICSV27), 12-16 July, 2020, Prague, Czech Republic.(干摩擦阻尼动力吸振)
5、Huang Xiuchang*, Su zhiwei, Hua Hongxing. Optimal parameters for dynamic vibration absorber with negative stiffness in controlling force transmission to a rigid foundation. International Journal of Mechanical Sciences, 152: 88-98, 2019. (简谐和随机激励下以传递力为优化目标的负刚度动力吸振器最优参数解析解)
6、Huang Xiuchang*, Su Zhiwei, He Xiaodong, Liu Aolin, Hua Hongxing. Design of a flexible dva in vibration transmission control of a flywheel at its flapping mode,The 26th International Congress on Sound and Vibration (ICSV26), 7-11 July, 2019, Montreal, Canada.(用于飞轮拍打模态控制的弹性阻尼环动力吸振器设计)
7、Huang Xiuchang*, Liu Aolin, Zhang Zhenguo, Hua Hongxing. Disturbance force prediction of a flywheel with flexible housing based on three-dimensional rotordynamic analysis and substructure method, The 25th International Congress on Sound and Vibration (ICSV25), 8-12 July, 2018, Hiroshima, Japan. (飞轮扰动力建模及分析)
8、黄修长*,丁泉惠,王勇,王森,华宏星。发射段阻尼环对飞轮轮体振动放大的粘弹性阻尼动力吸振抑振机理分析和试验研究。振动与冲击,2019,38(9):266-270。(飞轮阻尼环振动放大抑制机理)
9、Huang Xiuchang*, Zhang Zhenguo, Sun Jingya, Zhang Zhiyi, Hua Hongxing. Analytical stiffness model of a fluid-filled U-shaped bellows based three-parameter fluid damper for micro-vibration suppression. Aerospace Science and Technology,69(2017):357-369.(三参数阻尼器的波纹管解析解)
10、Huang Xiuchang*, Sun Jingya, Hua Hongxing, Zhang Zhiyi. 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. (广义的速度-位移依赖型非线性阻尼机理及基于速度反馈的主动控制阻尼器)
11、Huang Xiuchang*, Liu Xingtian, Sun Jingya, Zhang Zhiyi, Hua Hongxing. 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. (欧拉屈曲梁准零刚度隔振器冲击响应特性分析)
12、Huang Xiuchang*, Liu Xingtian, Hua Hongxing.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.(质量和刚度不完美时基础激励下欧拉屈曲梁高静低动减振器的复杂动力学特性)
13、Huang Xiuchang*, Liu Xingtian, Sun Jingya, Zhang Zhiyi, Hua Hongxing. 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.(欧拉屈曲梁高静低动减振器的复杂动力学特性理论与试验研究)
14、Huang Xiuchang*, Liu Xingtian, Sun Jingya, Zhang Zhiyi, Hua Hongxing. Effect of the system imperfections on the dynamic response of a high-static-low-dynamic stiffness vibration isolator. Nonlinear Dynamics, 2014, 76: 1157-1167.(质量和刚度不完美时力激励下欧拉屈曲梁高静低动减振器的复杂动力学特性)
15、Huang Xiuchang*, Liu Xingtian, Hua Hongxing. 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.(滑动梁高静低动减振器特性与机理)
16、Liu Xingtian, Huang Xiuchang, Hua Hongxing. 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.(欧拉屈曲梁准零刚度减振器的隔振机理与特性)
17、Sun Jingya, Huang Xiuchang, Liu Xingtian, Xiao Feng, Hua Hongxing. Study on the force transmissibility of vibration isolators with geometric nonlinear damping. Nonlinear Dynamics, 2013, 74: 1103-1112.(几何非线性阻尼的机理与特性)
18、Liu Xingtian, Huang Xiuchang, Hua Hongxing. Performance of a zero stiffness isolator under shock excitations. Journal of Vibration and Control, 2014, 20(14):2090-2099. (欧拉屈曲梁准零刚度减振器的冲击响应特性)
19、刘兴天,黄修长,张志谊,华宏星。激励幅值及载荷对准零刚度隔振器特性的影响。机械工程学报,2013, 49(6): 89-94。2、徐时吟,黄修长,华宏星。六韧带手性结构的能带特性研究。上海交通大学学报,2013, 47(2): 167-172。
热噪声复合载荷下结构振动噪声分析及颤振分析
1、Huang Xiuchang*, Zhou Kai, Tian Yanni, Hua Hongxing. Linear thermal-acoustic responses of a composite panel in progressive wave tube based on wavenumber-frequency analysis. Journal of Sound and Vibration,443, 17:1-24, 2019.(热噪声复合载荷下平板结构响应预示理论与试验)
2、Huang Xiuchang*, Zhou Kai, Tian Yanni, Hua Hongxing. Linear thermal-acoustic responses of a clamped composite panel in progressive wave tube based on wavenumber-frequency analysis. Internoise 2017,27-30 August, 2017, Hongkong, China. (热噪声复合载荷下平板结构响应预示)
3、Zhou Kai, Ni Zhen, Huang, Xiuchang*, Hua Hongxing. Stationary/Nonstationary Stochastic Response Analysis of Composite Laminated Plates with Aerodynamic and Thermal Loads. International Journal of Mechanical Sciences, 2020, 173, 105461(复合层合板在热噪声复合载荷下的稳态/非稳态分析)
4、Zhou Kai, Huang, Xiuchang*, Tian Jiajing, Hua Hongxing. Vibration and flutter analysis of supersonic porous functionally graded material plates with temperature gradient and resting on elastic foundation. Composite Structures, 204, 15: 63-79, 2018.(梯度温度下多孔功能梯度板结构振动和颤振预示)
5、Zhou Kai, Lin Zhenkun, Huang Xiuchang, Hua Hongxing. Vibration and sound radiation analysis of temperature-dependent porous functionally graded material plates with general boundary conditions. Applied Acoustics, 154: 236-250, 2019. (一般边界条件多孔功能梯度板结构振动和声辐射响应预示)
6、Zhou Kai, Huang, Xiuchang, Zhang Zhenguo, Hua Hongxing. Aero-thermo-elastic flutter analysis of coupled plate structures in supersonic flow with general boundary conditions. Journal of Sound and Vibration, 430: 36-58, 2018. (一般边界条件下超声辐射气流中板结构气-热-弹颤振分析)
复合覆盖层及先进结构振动噪声特性(周期结构、手性结构等)
1、朱蓓丽、黄修长,潜艇隐身关键技术-声学覆盖层的设计,上海交通大学出版社,2011年12月第一版,国家出版基金项目。
2、Huang Xiuchang*, Su zhiwei, Zhang Zhenguo, Hua Hongxing. Mechanism of a periodic chiral lattice coating on sound radiation suppression at the strong radiation mode of a stiffened hull plate. International Journal of Mechanical Sciences, 2020, 175, 105512.(手性结构覆盖层波形转换低频棱角模态控制)
3、Huang Xiuchang*, Su Jinpeng, Ren Longlong, Hua Hongxing. Development of curved beam periodic structure in broadband resonance suppression for cylindrical shell structure. Journal of Vibration and Control, 2017, 23(8):1267-1284.(周期结构振动传递控制)
4、Huang Xiuchang*, Su Zhiwei, Zhang Zhenguo, Hua Hongxing. Theoretical and experimental study on vibration transmission of a chiral-lattice based polyurethane coating with local resonators. The 25th International Congress on Sound and Vibration: Hiroshima Calling, July 8 - 12, 2018.(粘弹性周期手性覆盖层结构带隙预报及特性分析)
5、Huang Xiuchang*, Zhang Zhiyi, Hua Hongxing. Vibration and shock response of a pretensioned cable net structure for on-orbit micro-vibration isolation. The 7th International Congress on Vibration Engineering, 18-20 September, 2015, Shanghai, China.(索网轻质隔振结构振动控制机理)
6、Huang Xiuchang*, Chen Yong, Chen Feng, Hua Hongxing. Measurement of the modal characteristics of a Moebius shape structure by LDV. The 22nd International Congress on Sound and Vibration, 12-16 July, 2015, Florence, Italy.(Moebius结构动力学特性非接触测量)
7、Huang Xiuchang*, Zhu Dawei, Tian Jin, Hua Hongxing. LDV-based vibration measurement of a stiffened plate covered by a rubber coating with multi-layered periodic porous in air. Internoise 2014, 16-19 November, 2014, Melbourne, Australia.(多层周期结构手性覆盖层隔声性能)
8、Huang Xiuchang*, Chen Yong, Chen Feng, Hua Hongxing. Sound radiation suppression of stiffened beam by a soft chiral lattices coating with internally resonances, 13-17 July, 2015, Beijing, China.(带局域共振子的手性结构声辐射抑制机理)
9、Huang Xiuchang*, Hua Hongxing, Wang Yu, Du Zhipeng. Research on wave mode conversion of curved beam by the wave approach. ASME Journal of Vibration and Acoustics, 2013, 135(3): 031014.1- 031014.16. (基于主动多通道振动控制的水下辐射噪声控制)
10、Huang Xiuchang*, Jiang Aihua, Zhang Zhiyi, Hua Hongxing. Invariant representation of propagation properties for mono- coupled periodic structure. Advances in Vibration Engineering, 2013, 12(5): 413-429. (周期结构带隙解析解)
11、黄修长,徐时吟,华宏星,张志谊。曲梁结构周期隔振器动力学特性和隔振性能。上海交通大学学报,2013, 47(2): 173-179。
12、黄修长,朱蓓丽,胡碰,华宏星。静水压力下橡胶动态力学参数的声管测量方法。上海交通大学学报,2013, 47(10): 1503-1508。
13、黄修长,徐时吟,章振华,张志谊,华宏星。利用波动法研究曲梁结构中的波型转换和能量传递。振动与冲击,2012, 31(8): 40-48。
14、黄修长,徐时吟,蒋爱华,张志谊,华宏星。曲梁周期结构隔振器特性研究。振动与冲击,2012, 3131(5): 179-183。
15、黄修长, 钱振华, 李俊, 华宏星。应用基于解析试函数的广义协调四边形厚板元分析中厚板的自由振动。工程力学,2011,28(9): 039-043。(有限元方法)
16、Huang Xiuchang*, Jiang Aihua, Zhang Zhiyi, Hua Hongxing. Design and optimization of periodic structure mechanical filter in suppression of foundation resonances. Journal of Sound and Vibration. 2011, 330(20): 4689-4712. (周期结构基座振动传递控制)
17、Zhu Dawei, Huang Xiuchang, Hua Hongxing, Zheng Hui. 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.(带局域共振子手性结构覆盖层振动传递控制机理)
18、Xu Shiyin, Huang Xiuchang, Du Zhipeng, Hua Hongxing. 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.(新型手性浮筏结构振动特性)
19、Zhu Dawei, Huang Xiuchang, Wang Yu, Xiao Feng, Hua Hongxing. 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.(手性覆盖层水下声辐射控制)
20、Xu Shiyin, Huang Xiuchang, Hua Hongxing. A study on the isolation performance of the trichiral lattices with gradient geometry. Journal of Vibration and Control, 2015,21(16):3465-3475. (新型梯度手性浮筏结构振动控制机理)
21、Zhang Zhiyi, Huang Xiuchang, Chen Yong, Hua Hongxing. Underwater sound radiation control by active vibration isolation: an experiment. Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment. 2009, 223(4): 503-515. (基于主动多通道振动控制的水下辐射噪声控制试验研究)
22、邵骁麟,黄修长, 徐时吟,焦素娟,华宏星。基于一维等效模型的弹性平面索网隔振结构非线性振动响应特性研究。振动与冲击,2013, 32(24): 140-145。(索网轻质隔振结构非线性振动特性)
复杂耦合隔振系统动力学建模及优化
1、Huang Xiuchang*, Sun Jingya, Hua Hongxing, Zhang Zhiyi. Design scheme of a passive isotropic multi-strut vibration isolation platform constructed by three-parameter isolators based on the optimum damping frequency concept. Journal of Vibration and Control, Article first published online: June 26, 2017 , DOI: https://doi.org/10.1177/1077546317717403(三参数阻尼器隔振平台优化)
2、Huang Xiuchang*, Sun Jingya, Hua Hongxing, Zhang Zhiyi. Modeling and Optimization of Octostrut Vibration Isolation Platform by FRF- Based Substructuring Method. ASCE Journal of Aerospace Engineering, 2015, 28(3), 04014084.(航天八杆隔振平台优化)
3、Huang Xiuchang*, Xu Shiyin, Jiang Aihua, Hua Hongxing. Modeling and optimization of floating raft systems in submarines under different objectives by using hybrid genetic algorithm. Journal of Vibration and Control, 2012, 18(2): 268-297. (复杂隔振系统减振器参数全局优化)
4、Huang Xiuchang*, Zhang Zhiyi, Zhang zhenhua, Hua Hongxing. Vibro-acoustic optimization of immersed cylindrical structure with floating raft systems inside by using FRF-based substructuring sensitivity analysis. Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment. 2011, 225(2): 111-132. (复杂隔振系统减振器参数优化)
5、Huang Xiuchang, Hua Hongxing, Chen Feng, Xu Shiyin. Uncertainty propagation in floating raft system by FRF-based substructuring method for elastic coupling. IMAC-XXXI Conference and Exposition on Structural Dynamics, Society of Experimental Mechanics, Inc, February 11-14, 2013, California, U.S.A.(基于子结构方法的复杂隔振系统中不确定性传递分析)
6、Huang Xiuchang, Zhang Zhenguo, Hua Hongxing, Xu Shiyin. Hybrid modelling of floating raft system by FRF-based substructuring method with elastic coupling. IMAC-XXXII Conference & Exposition on Structural Dynamics, Society of Experimental Mechanics, Inc, February 3-6, 2014, Orlando, Florida, U.S.A.(考虑减振器弯曲刚度的复杂耦合系统振动建模)
7、黄修长, 徐时吟, 张志谊, 华宏星。基于频响函数综合的舱筏隔振系统灵敏度分析和优化。 振动与冲击,2011, 30(5): 145-151。(频响函数综合方法)