单胜博-凯发赌城平台

单胜博，助理教授，硕士生导师

电子邮箱/email：shanshengbo@tongji.edu.cn

电话/telephone：15195950044

教育经历/education：

2008-09至2012-06，南京航空航天大学，飞行器设计与工程，学士

2012-09至2015-03，南京航空航天大学，飞行器设计，硕士

2015-07至2019-03，香港理工大学，机械工程，博士

工作经历/employment：

2017-10至2018-01，宾夕法尼亚州立大学，访问学者

2019-03至2021-05, 香港理工大学，机械工程学系，博士后

2021-05至今, 同济大学，航空航天与力学学院，助理教授

主要研究方向/research interests：

1. 非线性导波理论

理论研究工程结构中不同形式的非线性导波的产生机理与传播特点。

2. 智能传感器技术

基于压电、磁致伸缩、电磁等原理，研究用于导波激励与接收的传感器设计与封装。

3. 结构健康监测算法

开发基于信号处理与数据挖掘的算法，利用传感器数据评估结构的健康状态。

4. 弹性波超材料研究

设计基于超材料的功能器件，用于定制与操控结构中的导波传播。

主讲课程/courses teaching：

飞行动力学

matlab应用

期刊论文列表/peer reviewed publications：

1. shan s*, zhang y, liu z, wen f, cheng l*, staszewski w. cross-modulation in guided wave propagation: how does it relate to the luxemburg-gorky effect?. journal of sound and vibration, 2024, 568: 117961.

2. zhang y, shan s*, cheng l*. elastic wave propagation in thick-walled hollow cylinders for damage localization through inner surface sensing. ultrasonics, 2023: 107027. 

3. liu z, shan s, cheng l*. nonlinear-lamb-wave-based plastic damage detection assisted by topologically designed metamaterial filters. structural health monitoring, 2023, 22(3): 1828-1843. 

4. shan s, liu z, cheng l*, pan y. metamaterial-enhanced coda wave interferometry with customized artificial frequency-space boundaries for the detection of weak structural damage. mechanical systems and signal processing, 2022, 174: 109131. 

5. shan s, cheng l*. two-dimensional scattering features of the mixed second harmonic a0 mode lamb waves for incipient damage localization. ultrasonics, 2022, 119: 106554.

6. shan s, pan y*, xiao s. an efficient damage quantification method for cylindrical structures enhanced by a dry-point-contact torsional-wave transducer. applied sciences, 2022, 12(2): 572.

7. liu z shan s, dong h, cheng l* topologically customized and surface-mounted meta-devices for lamb wave manipulation. smart materials and structures, 2022, 31(6): 065001. 

8. wen f, shan s, cheng l*. immunity of the second harmonic shear horizontal waves to adhesive nonlinearity for breathing crack detection. structural health monitoring, 2022;21(5):2340-2353.

9. shan s, wen f, cheng l*. purified nonlinear guided waves through a metamaterial filter for inspection of material microstructural changes. smart materials and structures, 2021, 30(9): 095017. 

10. wen f, shan s, radecki r, staszewski w, cheng l*. shear-lag modelling of surface-bonded magnetostrictive transducers for shear horizontal wave generation in a non-ferromagnetic plate. smart materials and structures, 2021, 30(3): 035026. 

11. wen f, shan s, cheng l*. third harmonic shear horizontal waves for material degradation monitoring. structural health monitoring, 2021, 20(2): 475-483.

12. shan s, cheng l*. mode-mixing-induced second harmonic a0 mode lamb wave for local incipient damage inspection. smart materials and structures, 2020, 29(5): 055020. 

13. shan s, cheng l*. mixed third harmonic shear horizontal wave generation: interaction between primary shear horizontal wave and second harmonic lamb wave. smart materials and structures, 2019, 28, 085042.

14. shan s, hasanian m, cho h, lissenden c*, cheng l. new nonlinear ultrasonic method for material characterization: codirectional shear horizontal guided wave mixing in plate. ultrasonics, 2019, 96: 64-74.

15. li p, shan s, wen f, cheng l*. a fully-coupled dynamic model for the fundamental shear horizontal wave generation in a pzt activated shm system, mechanical systems and signal processing, 2019, 116, 916-932. 

16. cho h, hasanian m, shan s, lissenden c*. nonlinear guided wave technique for localized damage detection in plates with surface-bonded sensors to receive lamb waves generated by shear-horizontal wave mixing. ndt & e international, 2019, 102: 35-46.

17. shan s, cheng l*, wen f. design of nonlinear-lamb-wave-based structural health monitoring systems with mitigated adhesive nonlinearity, smart materials and structures, 2018, 27(10), 105006.

18. shan s, cheng l*, wen f. characterization of nonplanar second harmonic lamb waves with a refined nonlinear parameter. journal of nondestructive evaluation, diagnostics and prognostics of engineering systems, 2018, 1(1): 011004.

19. xiao z, shan s, cheng l*. identification of cascade dynamic nonlinear systems: a bargaining game theory based approach, ieee transactions on signal processing, 2018, 66(17), 4657-4669.

20. shan s, cheng l*, li p. adhesive nonlinearity in lamb-wave-based structural health monitoring systems. smart material and structures, 2017, 26(2):025019.

21. shan s, qiu j*, zhang c, ji h, cheng l. multi-damage localization on large complex structures through an extended delay-and-sum based method. structural health monitoring, 2016, 15(1): 50-64.

22. zhang c, qiu j*, ji h, shan s. an imaging method for impact localization using metal-core piezoelectric fiber rosettes. journal of intelligent material systems and structures, 2015, 26(16): 2205-2215.

23. zhang c, qiu j*, ji h, shan s. damage localization using warped frequency transform in active structural health monitoring. international journal of applied electromagnetics and mechanics, 2015, 47(4): 897-909. 

科研项目/projects：

1. 国家自然科学基金青年科学基金，基于多功能超表面的复合材料板中非线性导波调控研究，30万元，2024年1月-2026年12月，主持。

2. 上海市自然科学基金面上项目, 复合材料板中的非线性导波研究：从机理特征到早期损伤监测, 2022-04 至 2025-03, 20万元, 主持

3. 上海市科学技术委员会, 上海市领军人才（海外）项目, 2022-01 至 2024-12, 120万元,主持

学术期刊审稿/journal reviewer：

ndt&e international, structural health monitoring, ultrasonics，journal of the acoustical society of america等