个人简介
韩河生,中山大学先进制造学院副教授。德国洪堡学者、深圳市特聘岗位人才、中山大学“百人计划”引进人才。
围绕减振降噪、弹性波调控、能量收集等,致力于发展具有智能折展与力学性能可调的新型结构,深入研究系统动力学与控制的基础理论及前沿技术。主要涵盖:基于折纸/剪纸理念的新型折展与力学功能结构研发、构型-功能调控的动力学理论研究及技术开发、基于理论和数据的复杂动力学系统建模与行为预测等。
主持多个国家、省、市等科研和人才项目,以第一作者在Int. J. Mech. Sci., Mech. Syst. Signal Process., Aerosp. Sci. Technol.等动力学与控制领域权威期刊发表了高水平研究论文14篇,其中1篇入选ESI高被引论文,谷歌h-index为12。担任了国际期刊Int. J. Dyn. Control的青年编委,以及包括上述在内的众多国际知名期刊的审稿人。与德国达姆斯塔特工业大学、新西兰奥克兰大学、日本京都大学等国外高水平大学,以及多所国内知名高校和科研院所建立了合作伙伴关系,可推荐优秀学生前往交流和深造。
基本信息
办公地址:广东省深圳市光明区公常路66号 中山大学理学园-东517
Google Scholar: https://scholar.google.com/citations?user=d3MBsnsAAAAJ&hl=en
教育背景
2019.09-2021.09,奥克兰大学(新西兰),机械工程系,联合培养博士
2019.06,京都大学(日本),力学工程与科学系,访学
2018.09-2022.07,哈尔滨工业大学,航天学院,博士
2014.09-2016.07,哈尔滨工业大学,航天学院,硕士(推免)
2010.09-2014.07,哈尔滨工业大学,航天学院,学士
工作经历
2025.03 至今,中山大学,副教授
2024.04-2024.09 & 2025.02-2025.07,达姆斯塔特工业大学(德国),洪堡学者
2022.10-2025.03,中山大学,“百人计划”助理教授
2016.07-2018.07,中国船舶第七一九研究所,结构工程师
《理论力学》(72学时,本科)
《折纸艺术与科学》(36学时,本科)
《机械工程前沿》(参与4学时,本科)
《结构动力学与应用》(36学时,研究生)
研究领域
折展(折纸)结构与多稳态系统:构型变换、减振降噪、弹性波调控、能量收集等应用
非线性动力学与控制:建模与分析、动态行为控制等方面的理论和技术
理论-数据驱动建模与分析:动力学建模、行为预测、特性识别、结构优化等研究
学术兼职
International Journal of Dynamics and Control期刊青年编委
Micromachines期刊客座编辑
International Journal of Mechanical Sciences, Mechanical Systems and Signal Processing, Mechanism and Machine Theory等知名期刊审稿人
教育部学位论文评审专家
荣誉奖励
2025 德国洪堡学者
2024 深圳市特聘岗位人才
2022 中山大学“百人计划”引进人才
科研项目
德国洪堡基金项目,2024-2025,主持
国家自然科学基金青年科学基金项目,2024-2026,主持
广东省自然科学基金面上项目,2025-2027,主持
深圳市优秀科技创新人才培养项目青年项目,2024-2026,主持
高校基本科研业务费青年教师培育项目,2023,主持
中山大学“百人计划”青年优秀人才科研启动项目,2023-2025,主持
期刊论文
(2026年)
[1]Y. Yang, Z. Zhang, M. Liu, H. Han, J. Wei, D. Cao, Dynamic modeling and analysis for a large flexible spacecraft with antenna trusses and solar wings, Appl. Math. Model. 150 (2026).(中科院1区)
(2025年)
[1]H. Han, B. Yu, L. Tang, N. Zhao, D. Cao, Y. Wang, Dynamics of flexible multi-stable origami with bio-inspired creases, Int. J. Mech. Sci. 300 (2025).(中科院1区Top)
[2]H. Han, L. Tang, D. Cao, Y. Jian, P. Hagedorn, Dynamic modeling and configuration transformation of origami with soft creases, Int. J. Mech. Sci. 285 (2025).(中科院1区Top)
[3]Y. Wu, M. Guo, V. Sorokin, L. Tang, B. Fang, K. Aw, H. Han, Multi-directional nonlinear energy sink with quasi-zero stiffness property inspired by origami, Thin Wall. Struct. (2025).(中科院1区Top)
[4]S. Chen, Y. Wang, Q. Wu, H. Han, D. Cao, B. Wang, Intelligent excitation adaptability for full-spectrum real-time vibration isolation, Commun. Eng. (2025) .
[5]C. Chen, Y. Wang, B. Fang, S. Chen, Y. Yang, B. Wang, H. Han, D. Cao, Low-dimensional dynamical models of structures with uncertain boundaries via a hybrid knowledge- and data-driven approach, Mech. Syst. Signal Proc. 223 (2025).(中科院1区Top)
[6]Y. Jian, K. Wang, C. Xia, D. Huang, H. Han, G. Hu, Higher-order defective metamaterial for multi-band low-frequency vibration localization, Int. J. Mech. Sci. 306 (2025).(中科院1区Top)
[7]Y. Jian, L. Tang, D. Huang, H. Han, W. Liu, G. Hu, Designing an electromechanical metamaterial beam with arbitrary decoupled defect modes for multi-band wave localization, Smart Mater. Struct. 34 (2025).(中科院3区)
(2024年)
[1]H. Han, W. Wang, B. Yu, L. Tang, Y. Wang, D. Cao, Integrated design of quasi-zero-stiffness vibration isolators based on bifurcation theory, Aerosp. Sci. Technol. 146 (2024).(中科院1区Top)
[2]P. Yin, H. Han, L. Tang, X. Tan, M. Guo, C. Xia, K.C. Aw, Kresling origami-inspired electromagnetic energy harvester with reversible nonlinearity, Smart Mater. Struct. 33 (2024).(中科院3区)
(2023年)
[1]H. Han, V. Sorokin, L. Tang, D. Cao, Origami-based Tunable Mechanical Memory Metamaterial for Vibration Attenuation, Mech. Syst. Signal Proc. (2023).(中科院1区Top,高被引论文:2025.05~06、2025.07~08)
[2]H. Han, L. Tang, J. Wu, S. Sun, P. Yin, D. Cao, Origami-inspired isolators with quasi-zero stiffness for coupled axial-torsional vibration, Aerosp. Sci. Technol. 140 (2023).(中科院1区Top)
(2022年及之前)
[1]H. Han, V. Sorokin, L. Tang, D. Cao, Lightweight origami isolators with deployable mechanism and quasi-zero-stiffness property, Aerospace Science and Technology 121 (2022).(中科院1区Top)
[2]H. Han, V. Sorokin, L. Tang, D. Cao, A nonlinear vibration isolator with quasi-zero-stiffness inspired by Miura-origami tube, Nonlinear Dynamics (2021).(中科院2区Top)
[3]H. Han, D. Cao, L. Liu, J. Gao, Y. Li, Free vibration analysis of rotating composite timoshenko beams with bending-torsion couplings, Meccanica 56 (2021).(中科院3区)
[4]H. Han, L. Liu, D. Cao, Dynamic modeling for rotating composite Timoshenko beam and analysis on its bending-torsion coupled vibration, Applied Mathematical Modelling 78 (2020).(中科院1区Top)
[5]H. Han, L. Liu, D. Cao, Analytical approach to coupled bending-torsional vibrations of cracked Timoshenko beam, International Journal of Mechanical Sciences 166 (2020).(中科院1区Top)
[6]H. Han, L. Tang, D. Cao, L. Liu, Modeling and analysis of dynamic characteristics of multi-stable waterbomb origami base, Nonlinear Dynamics 102 (2020) 2339-2362.(中科院2区Top)
[7]H. Han, L. Liu, D. Cao, Forced vibration of a cable-stayed beam by green’s function approach, International Journal of Structural Stability and Dynamics 20 (2020) 2050055.(中科院2区)
[8]H. Han, D. Cao, L. Liu, A new approach for steady-state dynamic response of axially functionally graded and non-uniformed beams, Composite Structures 226 (2019).(中科院1区Top)
[9]H. Han, D. Cao, L. Liu, Green’s functions for forced vibration analysis of bending-torsion coupled Timoshenko beam, Applied Mathematical Modelling 45 (2017).(中科院1区Top)