学历：研究生 学位：工学博士

职称／导师类别：副教授/硕导

毕业学校：哈尔滨工程大学

学科专业：机械工程

主要研究

方向

振动噪声控制

流固耦合

有限元分析

科研工作简历

2016年-至今     苏州大学         机电工程学院

2013年-2015年  美国韦恩州立大学

主要从事动力学分析、流固耦合、振动噪声控制等领域的研究工作。主持国家自然科学基金项目1项、省部级项目3项、市厅级项目2项，主持企业合作课题多项。已发表学术论文40多篇，SCI检索30余篇。以第一发明人申请/授权发明专利9项、PCT专利2项、软件著作权6项。

学术成果

（论文、著作、获奖、专利等情况）

部分代表性论文：
42. Sheng, Z., Kong, D., Zhang, Y., Zhu, Z.,Wang, G.#, & Yan, Y. (2025). Modeling of the tensioned membrane backed by a variable-shape cavity and research on acoustic characteristics.Thin-Walled Structures,207, 112744.

41. Zhang, Y., Zhu, Z., Sheng, Z., He, Y., &Wang, G. # (2025). Vibro-acoustic suppression of metamaterial plates in multi-bandgaps.International Journal of Mechanical Sciences,286, 109873.

40.Wang G, Liu W, Zhu Z, et al. Vibro-acoustic behaviors of a plate-cavity symmetrically embedded with suppressed acoustic spots[J]. International Journal of Mechanical Sciences, 2025, 287: 109965.

39. Liu W, He Y, Zhu Z, Chen F,Wang G#. Vibro-acoustic characteristics of rectangular plates with any number of point masses and translational springs. Journal of Vibration and Control. 2024;0(0). doi:10.1177/10775463241281766.

38. Weilong Liu, Yongfeng Zhang, Ziyuan Zhu, Yijie He,Gang Wang#, Vibro-acoustic characteristics of mass-loaded plates enforced by the spring-damper systems, Engineering Analysis with Boundary Elements,Volume 167, 2024, 105887.

37. Zhang, Y., Zhu, Z., Sheng, Z., He, Y., &Wang, G#. (2024). Sound absorption properties of the metamaterial curved microperforated panel. International Journal of Mechanical Sciences, 268, 109003..

36. Zhu, Z., Zhang, Y., Xu, R., Zhao, L.,Wang, G#.,  Liu, Q#. (2023). Analysis of thermal-vibration coupling modeling of combined conical-cylindrical shell under complex boundary conditions. Journal of Vibration and Control, 10775463231193254.

35. Zhu, Z., Song, Y., Zhang, Y., Liu, Q. #, Wang, G. # (2023). Sound radiation of the plate with arbitrary holes. International Journal of Mechanical Sciences, 108814.

34. Zhu Z,Wang G#, Sheng Z, et al. Sound insulation properties of embedded co-cured composite damping sandwich panel under arbitrary boundary conditions[J]. Mechanical Systems and Signal Processing, 2023, 204: 110810.

33. ZHU Ziyuan, XU Ruikang,WANG Gang#. Modeling and Analysis of Vibration Characteristics of Complex Boundary Annular Plate Under Thermal Environment[J]. Transactions of Nanjing University of Aeronautics & Astronautics,2023,(3):273-284

32.Wang G, Sheng Z, Zhang Y, et al. Sound transmission characteristics of a plate backed by an irregular cavity[J]. Mechanical Systems and Signal Processing, 2023, 196: 110345.

31. Zhu Z,Wang G#, Xuan Z, et al. Vibration analysis of the combined conical–cylindrical​ shells coupled with annular plates in thermal environment[J]. Thin-Walled Structures, 2023, 185: 110640.

30. Wang G, Zhu Z, Zhang Y, et al. Free and forced vibration analysis of thin-walled cylindrical shells with arbitraryboundariesinsteadythermal environment[J]. Thin-Walled Structures, 2023, 185: 110556.

29. Zhang, Y.,Wang, G. #,Zhu, Z., Liu, Q. Vibro-acoustic coupling characteristics of the microperforated panel with local resonators. International Journal of Mechanical Sciences. 2023: 108125.

28. Kong D, Wang N,Wang G#, et al. Analytical model of vibro-acoustic coupling between the membrane loaded with concentrated masses and the acoustic cavity[J]. Thin-Walled Structures, 2023, 182: 110317.

27.Wang G, Zhang Y, Sheng Z, et al. Analysis of the sound absorption characteristics of the curved microperforated panel with elastically restrained edges[J]. Thin-Walled Structures, 2023, 182: 110147.

26. Liu Y, Feng Z, Lv F,Wang G. An improved dynamic model and numerical simulation of yarn in the ring spinning system. Textile Research Journal. 2022;0(0). doi:10.1177/00405175221142250

25，盛哲昊;王刚#;倪俊芳;李春明;张永锋;孙家圆，基于谱几何法的隔声测量室动力学建模，噪声与振动控制，2023，12月

24.Wang G, Sheng Z, Kong D, et al. Analytical modeling of the virtual sound insulation measurement suite and research on sound insulation test methods[J]. Journal of Low Frequency Noise, Vibration and Active Control, 2022: 14613484221133628.

23. Kong, Deyu,Gang Wang#. Analytical coupled vibro-acousticmodelingoftensionedmembrane backedbytherectangularcavity. International Journal of Mechanical Sciences (2022): 107462.

22. Zhang Yongfeng，Zhu Ziyuan，Wang Gang#. Thermal Modal Analysis of Doubly Curved Shell Based on Rayleigh Ritz Method.Transactions of Nanjing University of Aeronautics and Astronautics,2022,39(01):58-65.

21.张永锋,李国防,王刚#,倪俊芳,孔德瑜,盛哲昊.基于声振耦合的曲面微穿孔板吸声特性研究及试验分析[J].振动与冲击,2022,41(20):298-306.

20.Gang Wang, Deyu Kong, Wenlong Li, Junfang Ni, Xianjie Shi, Acoustic modeling and eigenanalysis of the coupled cavities with panels, Mechanical Systems and Signal Processing, Volume 165, 2022, 108307.

19. Li Guofang,Wang Gang#, Junfang Ni, Liangli. The vibration analysis of the elastically restrained functionally graded Timoshenko beam with arbitrary cross sections[J]. Journal of Low Frequency Noise, Vibration and Active Control, 2021: 14613484211019648.

18. Liu T, Zhang K,Wang G#, et al. Prediction of Nonlinear Micro-Milling Force with a Novel Minimum Uncut Chip Thickness Model[J]. Micromachines, 2021, 12(12): 1495.

17.孔德瑜，王刚#，倪俊芳.声腔-弹性板结构在不同激励下声辐射特性研究，机械工程学报. 2021, 57(21): 126-137.

16.Deyu Kong,Gang Wang#, Wenlong Li, Junfang Ni. Sound radiation from the plate backed by the rectangular cavity. International Journal of Mechanical Sciences. 2021, 191: 106072.

15.Gang Wang, Wenlong Li, Tongshun Liu,The average radiation efficiency of a plate immersed in water with general boundary conditions, Mechanics Research Communications, Volume 106, 2020, 103532,

14.Wang G# , Li W L , Li W , et al. A unified procedure for the vibration analysis of elastically restrained Timoshenko beams with variable cross sections. Noise Control Engineering Journal, 2020, 68(1):38-47.

13.Wang G#, Li WL, Feng ZH, Ni JF. A unified approach for predicting the free vibration of an elastically restrained plate with arbitrary holes. International Journal of Mechanical Sciences 2019;159:266-277.

12.Wang G#, Zhou H, Li W, Feng Z, Ni J. The influence analysis of curvature on transverse vibration of multi-curved shafting based on numerical and experimental results. Noise Control Engineering Journal, 2019, 67(2): 98-107.

11.Wang G, Li W, Feng Z, et al. Sound transmission between cavities via an elastically mounted panel with apertures//INTER-NOISE and NOISE-CON Congress and Conference Proceedings. Institute of Noise Control Engineering, 2019, 259(3): 6023-6028.

10.Wang G, Li G, Feng Z, et al. Prediction of the sound insulation of panel structures based on the virtual testing room[C]//IOP Conference Series: Materials Science and Engineering. IOP Publishing, 2019, 531(1): 012013.

9.G Wang,WenL. Li, J Du, W Li. Prediction of break-out sound from a rectangular cavity via an elastically mounted panel. The Journal of the Acoustical Society of America 139, no. 2 (2016): 684-692.

8. Lv, Binglin,HuajiangOuyang,WanyouLi,ZhijunShuai,andGangWang. An indirect torsional vibration receptance measurement method for shaft structures. Journal of Sound and Vibration 372 (2016): 11-30.

7.G Wang,WenL. Li, J Du, and W Li. Virtual Testing of Sound Insulation Wall/Panel Designs.vol. 252,no. 2, 648-655. Institute of Noise Control Engineering, 2016.

6.Gang Wang, Wen L. Li, Jingtao Du, Wanyou Li. Prediction of break-out sound from a rectangular cavity via an elastic panel. 44th International Congress on Noise Control Engineering, San Francisco, 2015.

5. Li W,GWang, J Du. Vibration analysis of conical shells by the improved Fourier expansion-based differential quadrature method. Shock and Vibration 2016 (2015).

4.G Wang, W Li, Wen Long Li, and Jingtao Du. Sound radiation from an elastically restrained plate covered by an acoustic decoupling layer. Mathematical Problems in Engineering 2015 (2015).

3. Gang Wang, Wen L. Li, Jingtao Du, Wanyou Li. Numerical measurement of sound transmission loss of panel structures. Inter-Noise and Noise-Con Congress and Conference Proceedings. Institute of Noise Control Engineering, 2014, 248(2): 130-137.

2.Gang Wang, Wen L. Li, Wanyou Li, Jingtao Du. Vibration analysis of conical shells by using a new form of differential quadrature method. Internoise 2013, Innsbruck, Austria, 2013.

1.GWang, W Li, Wenlong Li, and Binglin Lv. A new developed method for the vibration analysis of abeamwithvariablecross section. The Journal of the Acoustical Society of America 131, no. 4 (2012): 3343-3343.

部分发明专利

1.王刚;曹婷婷;陆佳伟;吴春雨，一种自适应式扭振减振器及柴油机，ZL 2017 1 0992062.9，2023年06月09日

2.王刚;李文龙;李玩幽;冯志华;倪俊芳;陆佳伟，一种声压的耦合建模方法、装置、设备及介质，ZL 2018 1 0729665.4，2023年06月13日3.Gang Wang,ZhihuaFeng, Junfang Ni, BOLT SCREENING MACHINE，US 11.325.162 B2，May 10,2022

4.王刚;李国防;李文龙;冯志华;倪俊芳，隔声结构的隔声性能分析方法、装置、系统及存储介质，ZL201911358363.1，2022年09月09日

5.王刚;郑振晓，发电式闭门器及门，ZL 2019 1 0879094.7，2021年04月09日

6.Gang Wang,ZhihuaFeng, Junfang Ni,SELF-ADAPTIVE TORSIONALVIBRATIONDAMPERAND DIESEL ENGINE，US 10.718.402 B2，Jul.21.2020

7.王刚;张欣;冯志华;倪俊芳;郑振晓，一种螺栓筛选机，ZL 201810770505.4，2020年04月07日

软件著作权

1.板结构隔声性能分析软件

2.耦合声腔声波传递及预测分析软件

3.板结构透射声分析软件

4.阻尼层层合板噪声辐射分析软件

荣誉奖励

1.首届长三角高校工科基础力学青年教师讲课竞赛-特等奖，2020年

2.第十届江苏省工科基础力学青年教师讲课竞赛-特等奖，2020年

3.苏州大学机电工程学院本科教学优秀奖，2018年

4.江苏省双创计划（双创博士），2018年。

5.相城区突出贡献人才奖，2018年。

在研项目

1、国家自然科学青年基金（项目编号：51805341），主持。

2、江苏省自然科学青年基金（项目编号：BK20180843），主持。

3、中国博士后科学基金（项目编号：2018M632361），主持

4、中国博士后科学基金（项目编号：2020M671412），主持

5、江苏省博士后基金（项目编号：2020Z055），主持

需 求

欢迎具有机械、数学、力学背景的本科生、研究生加入课题组的研究工作。

联系方式

邮箱：wanggang81@suda.edu.cn