| Name: |
Li, Haiqin |
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| Gender: |
Male |
| Talent plan: |
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| Professional title: |
Associate Professor |
| Post: |
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| Institution: |
Department of Mechanics, School of Mechanical Engineering |
Specialty: |
Nonlinear dynamics and vibration control |
| Email: |
lihaiqin1992@tju.edu.cn |
Personal website: |
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| Tel: |
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Fax: |
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| Office: |
Room 226, Building 36 |
| Education: |
2009.8-2013.7: B.S. in Flight Vehicle Design, Harbin Institute of Technology, Harbin, China
2013.9-2015.7: M.S. in Aeronautical and Astronautical Science and Technology, Harbin Institute of Technology, Harbin, China
2015.9-2019.7: Ph.D. in Aeronautical and Astronautical Science and Technology, Harbin Institute of Technology, Harbin, China
2017.10-2018.10: Joint Training PhD in ENSTA Paris-Tech, Université Paris-Saclay, France
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| Academic experience: |
2019.12-2020.5:Postdoctoral Research Fellow, Institute of Mechanical Sciences and Industrial Applications, CNRS, ENSTA Paris, EDF, CEA, France
2020.6-2022.1: Postdoctoral Research Fellow, Laboratory of Acoustics of the University of Le Mans, UMR CNRS 6613, Le Mans Université, France
2022.7-Present: Associate Professor, Department of Mechanics, Tianjin University, Tianjin, China
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| Research interest: |
1.Structural dynamics, nonlinear vibrations of complex structures, vibration suppression.
2.Nonlinear dynamics, nonlinear phenomena, analytical and numerical methods in nonlinear systems.
3.Characterizing the behaviors and responses of aerospace structures under extreme dynamical environments.
4.Modeling and computations of vibro-impact dynamics.
5.Vibration based energy harvesting.
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| Teaching: |
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| Academic position: |
Chinese Society for Vibration Engineering (member)
Chinese Society of Theoretical and Applied Mechanics (member)
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| Academic achievement: |
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| Research projects: |
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| Selected publications: |
Journal Articles
[1] H. Li*, A. Li, X. Kong, H. Xiong. Dynamics of an electromagnetic vibro-impact nonlinear energy sink, applications in energy harvesting and vibration absorption. Nonlinear Dynamics, 108:1027–1043,2022.
[2] H. Li*, O. Doaré, C. Touzé, A. Pelat, F. Gautier. Energy harvesting efficiency of unimorph piezoelectric acoustic black hole cantilever shunted by resistive and inductive circuits. International Journal of Solids and Structures, 238: 111409, 2022.
[3] H. Li*, A. Li, Y. Zhang. Importance of gravity and friction on the targeted energy transfer of vibro-impact nonlinear energy sink. International Journal of Impact Engineering, 157: 104001, 2021.
[4] H. Li*, A. Li. Potential of a vibro-impact nonlinear energy sink for energy harvesting. Mechanical Systems and Signal Processing, 159: 107827, 2021.
[5] H. Li*, A. Li, X. Kong. Design criteria of bistable nonlinear energy sink in steady-state dynamics of beams and plates. Nonlinear Dynamics, 103(2): 1475-1497, 2021.
[6] X. Kong, H. Li*, C. Wu. Dynamics of 1-dof and 2-dof energy sink with geometrically nonlinear damping: application to vibration suppression. Nonlinear Dynamics, 91(1): 733-754, 2018.
[7] H. Li*, C. Touzé, F. Gautier, A. Pelat. Linear and nonlinear dynamics of a plate with acoustic black hole, geometric and contact nonlinearity for vibration mitigation. Journal of Sound and Vibration, 508: 116206, 2021.
[8] H. Li*, C. Touzé, A. Pelat, F. Gautier, X. Kong. A vibro-impact acoustic black hole for passive damping of flexural beam vibrations. Journal of Sound and Vibration, 450: 28-46, 2019.
[9] H. Li*, M. Sécail-Géraud, A. Pelat, F. Gautier, C. Touzé. Experimental evidence of energy transfer and vibration mitigation in a vibro-impact acoustic black hole. Applied Acoustics, 182: 108168, 2021.
[10] H. Li*, C. Touzé, A. Pelat, F. Gautier. Combining nonlinear vibration absorbers and the Acoustic Black Hole for passive broadband flexural vibration mitigation. International Journal of Non-Linear Mechanics, 129: 103558, 2020.
[11] H. Xiong*, X. Kong, H. Li. Vibration Analysis of Nonlinear Systems with the Bilinear Hysteretic Oscillator by Incremental Harmonic Balance Method. Communications in Nonlinear Science and Numerical Simulation, 42:437-450, 2016.
Patents
[1] X. Cao, X. Kong, H. Li, F. Wang, X. Chen, and D. Li. An on-line dynamic balance control method and system for rotating spaceborne camera. Chinese Patent: CN107246935A
[2] X. Cao, X. Kong, H. Li, X. Chen, C. Wu and Z. Yang. An on-line dynamic balance control equipment for rotating spaceborne camera. Chinese Patent: CN107219039A
[3] H. Li, M. He, Z. Ma, Q. Ding. A Honeycomb vibration damping structure with embedded periodic vibro-impact nonlinear energy sink Chinese Patent: 202310500063.2
Book Chapters
[1] H. Li, A. Li, X. Kong. Vibration Control and Energy Harvesting in Aerospace Engineering Using Nonlinear Energy Sinks, In book: Advanced Control of Flight Vehicle Maneuver and Operation, Bentham Science, 2022.
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