Chen Meixia-School of Naval Architecture and Ocean Engineering

Chen Meixia

Faculty Content

Professor

Email: chenmx26@hust.edu.cn

Academic Areas: Ship Structural Dynamics

Research Interests: Structure-Borne Sound, Fluid-Structure Interaction, Vibration and Noise Control, Vibration and Acoustic Characteristics of Composite Materials

Academic Degrees

PhD in Naval Architecture and Ocean engineering, 2003, Huazhong University of Science & Technology,

BE in Naval Architecture and Ocean engineering, 1997, Huazhong University of Science & Technology.

Professional Experience

Professor (2017-present); Huazhong University of Sci. & Tech.,

Visiting Scholar (2013-2014); The University of Western Australia.,

Associate Professor (2006-2017); Huazhong University of Sci. & Tech.,

Postdoctoral Research Associate (2003-2005); Huazhong University of Sci. & Tech.,

Lecturer (2003-2006); Huazhong University of Sci. & Tech.

Publications

Journal Articles

1. Zhou ZW, Chen MX*. Predicting effective moduli of a Z-reinforced core with cavities using a novel theoretical approach and a micromechanics finite element method, Int. J. Mech. Sci. 2019; 161-162.

2. Xie Kun, Chen Meixia*, Dong Wanjing, Li Wencheng. A unified semi-analytical method for vibration analysis of shells of revolution stiffened by rings with T cross-section. Thin-Walled Structures, 2019, 139: 412-431.

3. Chen Meixia, Yao Shihui, Xie Kun. Fluid-structure coupled vibration of a circular plate under elastic boundary conditions using Galerkin method. Journal of Vibration and Shock, 2019, 38(7): 204-211.

4. Chen Meixia，Peng Canbing，Chen Qi. Energy transmission characteristics of eccentrically stiffened plates. Journal of Vibration and Shock, 2019, 38(13): 111-117.

5. Yu Peng, Chen Meixia, Xie Kun. Optimal sensor placement for acoustic radiation prediction of cylinder shell based on proportion coefficient-effective independence method. Journal of Ship Mechanics, 2019, 23(5): 621-629

6. Ye Hailin, Chen Meixia, Tao Xiang-fan. Research on influencing factors of reconstruction of vibration and sound for double cylindrical shell underwater based on l1-norm sparse solution. Journal of Ship Mechanics, 2019, 23(2): 234 -244

7. Huang Mengqing, Chen Meixia. Study on Sound Transmission Losses of Infinite Panels and Hollow Double Panels. Noise and Vibration Control, 2019, 39 (4): 52-58

8. Chen Meixia, Zhang Lei*, Xie Kun. Vibration analysis of a cylindrical shell coupled with interior structures using a hybrid analytical-numerical approach. Ocean Engineering，2018, 154: 81-93

9. Xie Kun, Chen Meixia*. Wave based method for vibration analysis of double-walled cylindrical shells, Applied Acoustics, 2018.139(10): 293-306

10. Zhou Zhiwei, Chen Meixia. Prediction of Equivalent modulus of lattice-reinforced core material with cavities using the multi-level equivalent Mori-Tanaka method. Acta Materiae Compositae Sinica, 2018,35(3) :1-10

11. Chen Meixia, Xu Kun, Xie Kun. Analysis of acoustic characteristics of functionally graded material layer based on a semi-infinite substrate. Journal of Ship Mechanics, 2018, 22(8): 1028 -1038

12. Xie Kun, Chen Meixia*, Li Zuhui. An analytic method for free and forced vibration analysis of stepped conical shells with arbitrary boundary conditions. Thin-Walled Structures, 2017, 111: 126-137

13. Xie Kun, Chen Meixia*, Zhang Lei, Xie De. Free and forced vibration analysis of non-uniformly supported cylindrical shells through wave based method. International Journal of Mechanical Sciences, 2017, 128: 512-526

14. Xie Kun, Chen Meixia*, Li Zuhui. Free and Forced Vibration Analysis of Ring Stiffened Conical- Cylindrical- Spherical Shells through a Semi-Analytic Method. Journal of Vibration and Acoustics, 2017, 139, 3: 031001

15. Xie Kun, Chen Meixia*, Zhang Lei, Xie De. Wave based method for vibration analysis of elastically coupled annular plate and cylindrical shell structures. Applied Acoustics, 2017, 123: 107-122

16. Xie Kun, Chen Meixia*, Li Zuhui. A semi-analytical method for vibration analysis of thin spherical shells with elastic boundary conditions. Journal of Viboengineering, 2017, 19(4): 2312-2330

17. Li Zuhui, Chen Meixia. Numerical method for calculating sound radiation characteristics of plate structure excited by turbulent boundary layer. Chinese Journal of Ship Research, 2017,12(4): 76-82

18. Chen Meixia, Luo Qi, Wei Jianhui. Analytical method for calculating the vibration characteristics of simple-supported plate excited by turbulent boundary layer. Journal of Ship Mechanics, 2016, 20(4): 487-496

19. Xu Kun , Chen Meixia , Xie Kun. Vibration Analysis of Orthotropic Functionally Graded Plates. Noise and Vibration Control, 2016, 36(4): 14-20

20. Jia Wenchao, Chen Meixia, Yang Dan. Mechanism research of lock-in on two-dimensional flow around elastic plate. Ship Science and Technology, 2016, 38(11): 28-33

21. Li Zuhui，Chen Meixia，Xie Kun. Estimation method of vibration and radiation responses of submerged structures based on modal parameters in air. Technical Acoustics, 2016, 35 (5):196-200

22. Chen Meixia, Xie Kun, Jia Wenchao, Xu Kun. Free and forced vibration of ring-stiffened conical-cylindrical shells with arbitrary boundary conditions. Ocean Engineering, 2015, 108: 241-256

23. Chen Meixia,Xie Kun,Xu Kun,Yu Peng. Wave Based Method for Free and Forced Vibration Analysis of Cylindrical Shells With Discontinuity in Thickness. Journal of Vibration and Acoustics, 2015, 137(5): 1-14

24. Xie Kun,Chen Meixia,Deng Naiqi,Jia Wenchao. Free and forced vibration of submerged ring-stiffened conical shells with arbitrary boundary conditions. Thin-Walled structures, 2015, 96: 240-255

25. Chen M, Zhang C, Tao X, Deng N. Structural and acoustic responses of a submerged stiffened conical shell. Shock and vibration, 2014, 954253:1-14.

26. M.X.Chen, J.H.Wei, K.Xie, N.Q.Deng, G.X.Hou, Wave Based Method for Free Vibration Analysis of Ring Stiffened Cylindrical Shell with Intermediate Large Frame Ribs. Shock and Vibration, 2013, 20: 459-479.

27. J.H.Wei, M.X.Chen, G.X.Hou, K.Xie, N.Q.Deng, Wave based method for free vibration analysis of cylindrical shell with non-uniform stiffener distribution. Journal of Vibration and Acoustics, 2013,135(6), 061011.

28. Zhang C, Chen M, Tao X, Deng N. Structural and acoustic responses of a coupled cylindrical-conical shell submerged in a heavy fluid. International Journal of Applied Mathematics and Statistics, 2013, 49(19): 69-81

29. M.X.Chen, W.P.He, J.H.Wei, S.S.Guan, W.Chen, Z.H.Zhang, Research on Characteristics of Sound Radiation in Water from Stiffened Cylindrical Shells Excited by Interior Sound Source. Advances in Vibration Engineering, 2011, 10(3) : 273-286.

30. Chen Mei-Xia,Xie Kun,Wei Jian-Hui. Vibration Characteristics of Multiple Cabins of Cylindrical Shell. Journal of Vibration Engineering, 2014,04:555-564.

31. Chen Meixia, Zhang Cong, Deng Naiqi, Wei Jianhui, Xie Kun. Analysis of the low frequency vibration of a submerged cylindrical shell with endplates based on wave propagation approach. Journal of Vibration Engineering, 2014, 06:842-851

32. Chen Meixia, Xie Kun, Wei Jianhui. Vibration characteristics analysis of cylinder shell with frame rib. J.Huazhong Univ.of Sci.& Tech.(Natural Science Edition), 2014,03:127-132

33. Chen Mei-xia，Deng Nai-qi，Zhang Cong，Wei Jian-hui. Vibration of submerged and ring stiffened conical shells. Journal of Vibration and Shock, 2014,14:25-32.

Conference Papers

1. Mengqing Huang, Meixia Chen. Sound Transmission Loss of Finite Double-Plate Partition with Enhanced Columns Under Different Surrounding Fluids. The 29th International Ocean and Polar Engineering Conference (ISOPE 2019), Honolulu, Hawaii, USA, 2019/6/16-2019/6/21.

2. Zhiwei Zhou, Meixia Chen. An underwater nature vibration analysis method of a Z-reinforced sandwich structure with cavities. OCEANS 2018 MTS/IEEE, Charleston, SC, United states, 2018/10/22-2018/10/25.

3. Mengqing Huang, Meixia Chen*, Analysis of Sound Transmission Loss on Infinite Double-panel Partition. the 2018 IEEE 8th International Conference on Underwater System Technology: Theory and Applications (IEEE USYS-2018), Wuhan, China

4. Lei Zhang, Meixia Chen; Kun Xie. A hybrid analytical-numerical approach for vibration analysis of cylindrical shells with internal substructures. 46rd International Congress on Noise Control Engineering, Hong Kong，China, 2017/8/27-2017/8/30.

5. Shihui Yao, Meixia Chen, Kun Xie. Free vibration of an elastically restrained circular plate coupled with fluid. 46rd International Congress on Noise Control Engineering, Hong Kong，China, 2017/8/27-2017/8/30.

6. Kun Xie, Meixia Chen, Lei Zhang. Vibration analysis of coupled beam and cylindrical shell structures through an analytic method. 46rd International Congress on Noise Control Engineering, Hong Kong，China, 2017/8/27-2017/8/30.

7. Chen M.X.，Xie K., Deng N.Q., Xu K. Numerical modeling and experimental determination of vibration characteristics of cylindrical shell with non-uniform stiffeners. 44rd International Congress on Noise Control Engineering, San Francisco，USA, 2015/8/9-2015/8/12.

8. Chen M，Xie K, Wei J, Deng N. An analytical substructure method for the analysis of vibration characteristics on conical-cylindrical-spherical combined shells in vacuum. 43rd International Congress on Noise Control Engineering, 2014

9. Xie K, Chen M, Deng N, Xu K. Wave based method for vibration and acoustic characteristics analysis of underwater cylindrical shell with bulkheads. 43rd International Congress on Noise Control Engineering, Melbourne，Australia, 2014/11/19-2014/11/25

Courses Taught

Foundation of Finite Element, Undergraduate

Ship Structure & Computer Graphing, Undergraduate

Static and Dynamic Experiment Techniques for Engineering Structure, Postgraduate

Project

Prof. Chen Meixia hosted and participated in several research projects of the National Natural Science Foundation, National Defence Pre-research Foundation, Basic product innovation and scientific research projects of state administration of science in technology and industry for national defense, research projects of China shipbuilding industry research institute and enterprises. etc.

1. National Natural Science Foundation of China (number: 51779098). Mechanism research on vibro-acoustic coupling characteristics of underwater stiffened combined conical-cylindrical-spherical shells with interior structures , 2018.1-2021.12, Host

2. National Natural Science Foundation of China (number: 51579112). Research on Acoustic Scattering Field Calculation Method and Three-Dimensional Shape Inversion of Underwater Complex Elastomer. 2016.1-2019.12, Participate

3. National Natural Science Foundation of China (number: 51179071). Research on the mechanism of vibration and sound radiation of stiffened conical shells in fluid under the axis excitation., 2012.1-2015.12, Host

4. National Natural Science Foundation of China (number: 50805055). Research on the mechanism of relationship between vibration and sound radiation of single and double stiffened cylinders in fluid., 2009.1-2011.12, Host

5. National postdoctoral science fund of China (number: 20040350633), Analysis of sound radiation from finite stiffened cylindrical shell in fluid partially covered by damping layer. 2004.7-2005. 8, Host

Awards

1. In 2018, won the “Second prize of teaching quality in HUST”

2. In 2016, won the “Third prize for scientific and technological progress in national defense”

3. In 2010 Won the “Second prize of Young teachers teaching competition in HUST”

4. In 2009, won the “Second prize of teaching quality in HUST”

5. In 2009, won the “My favorite research supervisor in HUST” title