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本人师从加拿大工程院院士、香港理工大学机械工程系讲席教授成利教授,致力于基于超声导波的结构健康监测技术研究。在Smart Materials and Structures, Mechanical Systems and Signal Processing, Structural Health Monitoring等国际知名期刊发表SCI期刊论文20余篇。主持国家自然科学基金青年科学基金项目、上海市自然科学基金的面上项目,入选2021年上海市领军人才计划(海外)。
本人主要从事基于超声导波的结构健康监测技术,主要包括四个方面的研究:
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。
欢迎对相关研究方向感兴趣的同学加入团队!
本人负责带领一支专攻结构健康监测方向的研究队伍,团队凝聚力强,欢迎咨询。
本人主持三项纵向课题,项目进展顺利,经费充足。
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支持扩展名:.rar .zip .doc .docx .pdf .jpg .png .jpeg1. Shan S*,Liu Z, Zhang C, Cheng L*, Pan Y. A metamaterial-assisted coda waveinterferometry method with nonlinear guided waves for local incipient damagemonitoring in complex structures. Smart Materials and Structures, 2024, 33(3), 035017.
2. Shan S*,Zhang Y, Cheng L, Song Y, Pan Y, Cheng L*. “Cumulative effect” of secondharmonic Lamb waves in a lossy plate. Ultrasonics, 2024, 138, 107229.
3. Shan S*,Ke R, Ma Y, Song Y, Cheng L*. Quasi-phase-matched nonlinear Lamb waves incomposite laminates for material degradation monitoring. NDT & EInternational, 2024, 143, 103064.
4. Shan S*,Zhang Y, Liu Z, Wen F, Cheng L*, Staszewski W. Cross-modulation in guided wavepropagation: how does it relate to the Luxemburg-Gorky effect?. Journal ofSound and Vibration, 2024, 568: 117961.
5. Liu Z, Shan S*, Cheng L*. Meta-structureenhanced second harmonic S0 waves for material microstructural changesmonitoring. Ultrasonics, 2024, 107295.
6. ZhangY, Shan S*, Cheng L*. Elastic wave propagation inthick-walled hollow cylinders for damage localization through inner surfacesensing. Ultrasonics, 2023: 107027.
7. ShanS, Liu Z, Cheng L*, Pan Y. Metamaterial-enhanced codawave interferometry with customized artificial frequency-space boundaries forthe detection of weak structural damage. Mechanical Systems and SignalProcessing, 2022, 174: 109131.
8. ShanS, Pan Y*, Xiao S. Anefficient damage quantification method for cylindrical structures enhanced by adry-point-contact torsional-wave transducer. Applied Sciences, 2022, 12(2):572.
9. ShanS, Wen F, Cheng L*. Purified nonlinear guided waves through ametamaterial filter for inspection of material microstructural changes. SmartMaterials and Structures, 2021, 30(9): 095017.
10. Shan S, Cheng L*. Two-dimensional scattering features of themixed second harmonic A0 mode Lamb waves for incipient damage localization.Ultrasonics, 2022, 119: 106554.
11. ShanS,Cheng L*. Mode-mixing-induced second harmonic A0 mode Lamb wave for localincipient damage inspection. Smart Materials and Structures, 2020, 29(5):055020.
12. ShanS,Cheng L*. Mixed third harmonic shear horizontal wave generation: interactionbetween primary shear horizontal wave and second harmonic lamb wave. SmartMaterials and Structures, 2019, 28, 085042.
13. ShanS, Hasanian M, Cho H, Lissenden C*, Cheng L. New nonlinear ultrasonic method for materialcharacterization: Codirectional shear horizontal guided wave mixing in plate.Ultrasonics, 2019, 96: 64-74.
14. Shan S, Cheng L*, Wen F. Design of nonlinear-Lamb-wave-basedstructural health monitoring systems with mitigated adhesive nonlinearity,Smart Materials and Structures, 2018, 27(10), 105006.
15. Shan S,Cheng L*, Wen F. Characterization of nonplanar second harmonic lamb waves witha refined nonlinear parameter. Journal of Nondestructive Evaluation,Diagnostics and Prognostics of Engineering Systems, 2018, 1(1): 011004.
16. Shan S,Cheng L*, Li P. Adhesive nonlinearity in Lamb-wave-based structural healthmonitoring systems. Smart Material and Structures, 2017, 26(2):025019.
17. Shan S,Qiu J*, Zhang C, Ji H, Cheng L. Multi-damagelocalization on large complex structures through an extended delay-and-sumbased method. Structural Health Monitoring,2016, 15(1): 50-64.
18. Liu Z Shan S, Dong H, Cheng L*Topologically customized and surface-mounted meta-devices for Lamb wavemanipulation. Smart Materials and Structures, 2022, 31(6): 065001.
19. Liu Z, Shan S, Cheng L*. Nonlinear-Lamb-wave-basedplastic damage detection assisted by topologically designed metamaterialfilters. Structural Health Monitoring, 2023, 22(3): 1828-1843.
20. Wen F, Shan S, Cheng L*. Immunity of the second harmonic shear horizontal wavesto adhesive nonlinearity for breathing crack detection. Structural HealthMonitoring, 2021: 14759217211057138.
21. WenF, Shan S, Radecki R, Staszewski W, Cheng L*. Shear-lag modellingof surface-bonded magnetostrictive transducers for shear horizontal wave generationin a non-ferromagnetic plate. Smart Materials and Structures, 2021, 30(3):035026.
22. WenF, Shan S, Cheng L*. Third harmonic shear horizontal waves formaterial degradation monitoring. Structural Health Monitoring, 2021, 20(2):475-483.
23. LiP, Shan S, Wen F, Cheng L*. AFully-Coupled Dynamic Model for the Fundamental Shear Horizontal WaveGeneration in a PZT Activated SHM System, Mechanical Systems and SignalProcessing, 2019, 116, 916-932.
24. XiaoZ, Shan S, Cheng L*.Identification of cascade dynamic nonlinear systems: a bargaining game theorybased approach, IEEE Transactions on Signal Processing, 2018, 66(17),4657-4669.
25. ChoH, Hasanian M, Shan S, Lissenden C*. Nonlinear guided wavetechnique for localized damage detection in plates with surface-bonded sensorsto receive Lamb waves generated by shear-horizontal wave mixing. NDT & EInternational, 2019, 102: 35-46.
26. ZhangC, Qiu J*, Ji H, Shan S. An imaging method for impactlocalization using metal-core piezoelectric fiber rosettes. Journal ofIntelligent Material Systems and Structures, 2015, 26(16): 2205-2215.
27. ZhangC, Qiu J*, Ji H, Shan S.Damage localization using warped frequency transform in active structuralhealth monitoring. International Journal of Applied Electromagnetics andMechanics, 2015, 47(4): 897-909.
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