师资队伍

教师名录

颜志淼

工程力学系

电子邮件:zhimiaoy@sjtu.edu.cn
通讯地址:木兰楼B722

2020年8月-至今,上海交通大学,长聘教轨副教授(Associate Professor),博导

2018年11月-2020年7月,上海交通大学,长聘教轨助理教授(Assistant Professor)

2016年3月-2018年11月,哈尔滨工业大学航天学院,讲师
2015年1月-2016年3月,美国Virginia Tech,博士后
2012年1月-2014年12月,美国Virginia Tech,工程力学,博士
2008年9月-2011年7月,重庆大学土木工程,硕士
2004年9月-2008年7月,重庆大学土木工程,本科

智能材料和结构,非线性振动与控制,振动能量采集,扑翼飞行气动设计,跨音速颤振

AIAA会员,中国力学学会会员
SCI期刊审稿人,包括Smart Materials and Structures, Nonlinear Dynamics, International Journal of Mechanical Science, Energy, Applied Physics Letters, Journal of Energy Engineering, Communications in Nonlinear Science and Numerical Simulations, Energy Conversions and Management, IEEE Access, Journal of Intelligent Materials Systems and Structures, Journal of Engineering Mechanics等。

[1]2020.1-2022.12 主持国家自然科学基金青年基金,基于尾流驰振的低速水流压电能量采集器分岔机理及性能研究,25万
[2] 2019.7.1-2022.6.30 主持上海市自然科学基金面上项目,压电自参数吸振器目标能量转移机理和非线性振动控制研究,20万
[3] 2019-2021长聘教轨助理教授科研启动项目,折纸超材料力学性能分析, 20万
[4] 2018.6-2019.6,主持上海交通大学船舰设备噪声与振动控制技术国防重点学科基金,船舶设备被动/半主动压电自参数吸振器理论与实验研究,10万
[5] 2018.6-2018.12,主持中国博士后科学基金特别资助,2018T110283,驰振压电能量采集系统机电解耦及优化设计研究,15万
[6] 2017.6-2018.12,主持中国博士后科学基金面上项目(一等),2017M610202,舞动压电风能采集器外接交流与直流电路系统建模与优化,8万
[7] 2017.1-2018.12,主持哈尔滨工业大学国防重点实验室基金,HIT.KLOF.2016.072,高超音速飞行器颤振分析与被动控制, 5万
[8] 2009.08-2016.12,参与美国空军实验室与弗吉尼亚理工合作研究基金项目,Multidisciplinary Analysis and Design of Future Aerospace Vehicles,$3,283,735

发表一作或通讯31篇SCI期刊论文

 

(* represents corresponding author)

2020

38.Piezoelectric galloping energy harvesting enhanced by topological equivalent aerodynamic design, Energy Conversion and Management.

Daoli Zhao, Xinyu Hu, Ting Tan, Zhimiao Yan*, Wenming Zhang. 2020, 222: 113260.

37. Nonlinear characterization and performance optimization for broadband bistable energy harvester.

Ting Tan, Zhimiao Yan, Kejing Ma, Fengrui Liu, Linchuan Zhao, Wenming Zhang*, Acta Mechanica Sinica, 2020

36. Ultra broadband piezoelectric energy harvesting via bistable multi-hardening and multi-softening.

Zhimiao Yan, Weipeng Sun, Muhammad R Hajj, Wenming Zhang, Ting Tan*. Nonlinear Dynamics, 2020: 100, 1057-1077 (SCI, Q1).

35. Ultra-wideband piezoelectric energy harvester based on stockbridge damper and its application in smart grid

Xiaochun Nie, Ting Tan, Zhimiao Yan*, Zhitao Yan*, Wenming Zhang. Applied Energy, 2020: 267, 114898.
34. Energy harvesting from iced-conductor inspired wake galloping
Zhimiao Yan, Lingzhi Wang, Muhammad R. Hajj, Zhitao Yan, Yi Sun, Ting Tan*. Extreme Mechanics Letters, 2020, 35: 100633 (SCI, Q1)
33. Piezoelectromagnetic synergy design and performance analysis for wind galloping energy harvester.
Ting Tan, Xinyu Hu, Zhimiao Yan*, Yajian Zou, Wenming Zhang. Sensors and Actuators A, 2020, 302: 111813. (SCI, Q2)

2019
32. Enhanced low-velocity wind energy harvesting from transverse galloping with super capacitor.
Ting Tan, Xinyu Hu, Zhimiao Yan*, Wenming Zhang. Energy, 2019, 187: 115915. (SCI, Q1)
31. Renewable energy harvesting and absorbing via multi-scale metamaterial systems for Internet of things
Ting Tan, Zhimiao Yan, Hongxiang Zou, Kejing Ma, Fengrui Liu, Linchuan Zhao, Zhike Peng, Wenming Zhang*. Applied Energy, 2019, 254: 113717. (SCI, Q1)
30. Integration of tapered beam and four direct-current circuits for enhanced energy harvesting from transverse galloping
Lingzhi Wang, Ting Tan, Zhimiao Yan*, Dezhi Li, Bin Zhang, Zhitao Yan*, IEEE/ASME Transactions on Mechatronics, 2019, 24(5): 2248-2260. (SCI, Q1)
29. Tapered galloping energy harvester for power enhancement and vibration reduction
Lingzhi Wang, Ting Tan, Zhimiao Yan*, Zhitao Yan*, Journal of Intelligent Material Systems and Structures, 2019, 30(18-19): 2853-2869. (SCI, Q2)
28. Broadband and high-efficient L-shaped piezoelectric energy harvester based on internal resonance
Xiaochun Nie, Ting Tan, Zhimiao Yan*, Zhitao Yan*, Muhammad R Hajj, International Journal of Mechanical Sciences, 2019, 159, 287–305 (SCI, Q1)
27. Low velocity water flow energy harvesting using vortex induced vibration and galloping
Weipeng Sun, Daoli Zhao, Ting Tan, Zhimiao Yan*, Pengcheng Guo, Xingqi Luo,Applied Energy, 2019, 251, 113392 (SCI, Q1)
26. Optimal dual-functional design for a piezoelectric autoparametric vibration absorber
Ting Tan, Zhimiao Yan*, Yajian Zou, and Wenming Zhang, Mechanical Systems and Signal Processing, 2019, 123: 513–532(SCI, Q1)

2018
25. Nonlinear analysis of galloping piezoelectric energy harvesters with inductive-resistive circuits for boundaries of analytical solutions
Zhimiao Yan*, Weipeng Sun, Ting Tan and Wenhu Huang, Communications in Nonlinear Science and Numerical Simulation, 2018, 62:90-116 (SCI, Q1)
24. Nonlinear characterization of the rotor-bearing system with the oil-film and unbalance forces considering the effect of the oil-temperature
Weipeng Sun, Zhimiao Yan*, Ting Tan, Daoli Zhao and Xinqi Luo, Nonlinear Dynamics, 2018, 10.1007/s11071-018-4113-5 (SCI, Q1)
23. Nonlinear analysis for dual-frequency concurrent energy harvesting,
Zhimiao Yan*, Hong Lei, Ting Tan, Weipeng Sun and Wenhu Huang, Mechanical Systems and Singal Processing, 2018, 104: 514-535 (SCI, Q1)
22. Passive control of transonic flutter with a nonlinear energy sink
Zhimiao Yan, Saad Ragab and Muhammad Hajj*, Nonlinear Dynamics, 2018, 91(1):577-590 (SCI, Q1)
21. Energy harvesting from water flow in open channel with macro fiber composite
Weipeng Sun, Ting Tan, Zhimiao Yan*, Weipeng Sun, Daoli Zhao, Xingqi Luo and Wenhu Huang, AIP advances, 2018, 8, 095107 (SCI, Q3)

2017
20. Broadband design of hybrid piezoelectric energy harvester
Ting Tan, Zhimiao Yan* and Wenhu Huang, International Journal of Mechanical Sciences 131-132: 516-526, 2017 (SCI, Q1)
19. Optimization and performance comparison for galloping-based piezoelectric energy harvesters with alternating-current and direct-current interface circuits
Ting Tan, Zhimiao Yan* and Hong Lei, Smart Materials and Structures 26(7): 075007, 2017 (SCI, Q1)
18. Optimization study on inductive-resistive circuit for broadband piezoelectric energy harvesters
Ting Tan, Zhimiao Yan*, AIP advances 7 (3), 035318, 2017 (SCI, Q3)
17. Geometric Nonlinear Distributed Parameter Model for Cantilever-beam Piezoelectric Energy Harvesters and Structural Dimension Analysis for Galloping Mode
Ting Tan, Zhimiao Yan*, Hong Lei, Weipeng Sun, Journal of Intelligent Material Systems and Structures, DOI: 10.1177/1045389X17704922, 2017 (SCI, Q2)
16. Electromechanical decoupled model for cantilever-beam piezoelectric energy harvesters with inductive-resistive circuits and its application in galloping mode
Ting Tan, Zhimiao Yan*, Smart Materials and Structures 26(3):035062, 2017 (SCI, Q1)
15. Nonlinear characteristics of an autoparametric vibration system
Zhimiao Yan*, Haithem Taha, Ting Tan, Journal of Sound andVibration 390, 1-22, 2017 (SCI, Q1)
14. Nonlinear performances of an autoparametric vibration-based piezoelastic energy harvester
Zhimiao Yan*, Muhammad Hajj, Journal of Intelligent Material Systems and Structures 28(2), 254-271, 2017 (SCI, Q2)

2016
13. Analytical solution and optimal design for galloping-based piezoelectric energy harvesters
Ting Tan, Zhimiao Yan*, Applied Physics Letters, 109 (25), 2016 (SCI, Q1)
12. Electromechanical decoupled model for cantilever-beam piezoelectric energy harvesters
Ting Tan, Zhimiao Yan*, Muhammad Hajj, Applied Physics Letters 109(10):101908, 2016 (SCI, Q1)
11. Vibration of a Rectangular Plate Carrying a Massive Machine with Elastic Supports
Lingzhi Wang, Zhitao Yan*, Zhengliang Li, Zhimiao Yan, International Journal of Structural Stability and Dynamics 16 (10), 1550069 , 2016 (SCI, Q2)

2015
10. Energy Harvesting from an autoparametric vibration absorber
Zhimiao Yan*, Muhammad Hajj, Smart Materials and Structures 24 (11), 2015 (SCI, Q1)
9. Effects of Aerodynamics Modeling on Optimum Wing Kinematics of Hovering MAVs
Zhimiao Yan*, Haithem Taha, Muhammad Hajj, Aerospace Science and Technology, 45, 39-49, 2015 (SCI, Q1)

2014
8. Geometrically-exact unsteady model for airfoils undergoing large amplitude maneuvers
Zhimiao Yan*, Haithem Taha, Muhammad Hajj, Aerospace Science and Technology, 39, 293-306, 2014 (SCI, Q1)
7. Nonlinear characterization of concurrent energy harvesting from galloping and base excitations
Zhimiao Yan, Abdessattar Abdelkefi*, Nonlinear dynamics, 77 (4), 1171-1189, 2014 (SCI, Q1)
6. Piezoelectric energy harvesting from hybrid vibrations
Zhimiao Yan, Abdessattar Abdelkefi*, Muhammad Hajj, Smart Materials and Structures 23 (2), 025026, 2014 (SCI, Q1)
5. Performance analysis of galloping-based piezoaeroelastic energy harvesters with different cross-section geometries
Abdessattar Abdelkefi*, Zhimiao Yan, Muhammad Hajj, Journal of Intelligent Materials Systems and Structures 25 (2), 246-256, 2014 (SCI, Q2)

2013
4. Nonlinear dynamics of galloping-based piezoaeroelastic energy harvesters
Abdessattar Abdelkefi*, Zhimiao Yan, Muhammad Hajj, The European Physical Journal Special Topic 222 (7), 1483-1501, 2013 (SCI, Q2)
3. Temperature impact on the performance of galloping-based piezoeroelastic energy harvesters
Abdessattar Abdelkefi*, Zhimiao Yan, Muhammad Hajj, Smart Materials and Structures 22 (5), 055026, 2013 (SCI, Q1)
2. Modeling and nonlinear analysis of piezoelectric energy harvesting from transverse galloping
Abdelkefi Abdelkefi*, Zhimiao Yan, Muhammad Hajj, Smart Materials and Structures 22 (2), 025016, 2013 (SCI, Q1)

2012
1. Nonlinear galloping of internally resonant iced transmission lines considering eccentricity
Zhimiao Yan, Zhitao Yan*, Zhengliang Li, Ting Tan, Journal of sound and vibration 331 (15), 3599-3616, 2012 (SCI, IF=2.593, Q1)

研究生课程:非线性连续介质力学(秋季)

1.    一种基于自参数动力吸振器的压电能收集器测试装置,中国,ZL201810759838.7,2020.06.09,排序1

2.    一种利用机械振动转换成电能的装置,中国,ZL201810725513.7,2020.07.04,排序1

3.    一种基于动力吸振器的压电能量收集器测试装置,中国,ZL201810682047.9,2020.07.07,排序1

4.    一种压电能收集器测试装置及测试方法,中国,ZL201810290275.1,2020.07.03,排序1

5.    基于风致振动的串错列压电采集器测试装置和测试方法,中国,ZL20191059-139.9,2020.07.14,排序1

6.    基于内共振原理的宽频俘能防振锤装置,中国,CN202010716136.8,2020.07.23,排序1

7.    尾流激振的覆冰形能量采集器,中国,CN202010742224.5,2020.07.29, 排序1

8.    基于声子晶体的可调频声能采集装置,中国,CN202010812642.7,2020.08.13,排序1


2018 国际先进材料协会科学家奖章
2012-2015 中国留学基金委政府奖学金
2015 弗吉尼亚理工大学Liviu Librescu Memorial Scholarship奖学金
2008-2011 优秀研究生、优秀毕业生
2006年,2007年 国家奖学金(两次)
2004-2008 优秀毕业生,重庆市力学竞赛一等奖,科研创新先进个人

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