单胜博 - 同济大学 - 航空航天与力学学院

个人简介

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，助理教授科研项目/Projects 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

研究领域

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。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

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. Zhang Y, Shan S*, Cheng L*. Elastic wave propagation in thick-walled hollow cylinders for damage localization through inner surface sensing. Ultrasonics, 2023: 107027. 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. 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. 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. 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. 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. 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. 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. 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. Wen F, Shan S, Cheng L*. Third harmonic shear horizontal waves for material degradation monitoring. Structural Health Monitoring, 2021, 20(2): 475-483. 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. 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. 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. 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. 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. 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. 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. 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. Shan S, Cheng L*, Li P. Adhesive nonlinearity in Lamb-wave-based structural health monitoring systems. Smart Material and Structures, 2017, 26(2):025019. 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. 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. 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.