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周茂瑛

职称:副教授

邮箱: myzhou@hdu.edu.cn

研究方向: 智能材料与结构、机器人、人工智能技术应用
    个人概况 研究领域 教学与课程 科研项目 论文 科研成果 荣誉及奖励 著作 专利成果 软件成果
个人简介

周茂瑛,男,1988年生,湖北黄冈人,博士,副教授。2010年毕业于华中科技大学,获学士学位。201512月于浙江大学取得博士学位。2016年至今在bob电竞ios 工作。20187月至20197月在法国巴黎南大学访学。

主要从事智能材料与结构的设计、建模、分析与应用研究,专注于基于压电和电磁等效应的环境振动能量收集。主持国家自然科学基金项目(1),浙江大学流体动力与机电系统国家重点实验室开放基金(共1项)。以第一作者和通讯作者在《Renewable and sustainable energy reviews》、《Smart materials and structures》、《Physicsof Fluids》等期刊发表SCI论文20余篇。


教育经历

  • 2010年于华中科技大学获学士学位

  • 201512月于浙江大学取得博士学位

  • 20187月至20197月在法国巴黎南大学访学


工作经历

2016年至今在bob电竞ios 工作

社会职务
研究领域

智能材料与结构、机器人、人工智能技术应用

教学与课程

  1. 数值计算方法

  2. 数值分析

  3. 机器人技术基础

  4. 工程数学:数值分析与复分析

纵向科研

代表性科研项目:

[1] 国家自然科学基金青年基金项目,基于分布式压电薄膜的管道振动能量收集方法研究,主持,2018.01-2020.12

[3] 浙江省自然科学基金探索项目,野外条件下风致振动俘能器阵列的性能优化与应用研究,主持2022.01-2024.12

[3] 国家自然科学基金青年基金项目,面向人体运动能的二次升频压电俘能机理与方法研究,参与,2019.01-2021.12

[4] 国家重点实验室开放基金,基于液压系统压力脉动的压电能量收集系统研究,主持,2016.12-2018.12


横向科研



论文成果

  • [1] Zhou, Maoying, and Zou, Jun., 2021. A dynamical overview of droplets in the tran**ission of respiratory infectious diseases. Physics of Fluids, 33, p.031301.

  • [2] Tang, Wei, Lin, Yangqiao, etal., 2021, Self-contained soft electrofluidic actuators. Science Advances, 7, eabf8080.

  • [3] Zhou, M., Al-Furjan, M.S.H., Zou, J. and Liu, W., 2018. A review on heat and mechanical energy harvesting from human–Principles, prototypes and perspectives. Renewable and Sustainable Energy Reviews, 82, pp.3582-3609.

  • [4] Zhou, M., Ruan, Y., Liu, W., Huang, S. and Fu, X., 2014. A bio-inspired piezoelectric motor with simple structured asymmetric stator. Smart materials and structures, 23(4), p.045003.

  • [5] Zhou, M., Fu, Y., Liu, L., Xu, Z., Al-Furjan, M.S.H. and Wang, W., 2018. Modeling and preliminary ****ysis of piezoelectric energy harvester based on cylindrical tube conveying fluctuating fluid. Meccanica, 53(9), pp.2379-2392.

  • [6]Zhou, M., Zhao, H. Revisit to the theoretical analysis of a classical piezoelectric vibration energy harvester . Arch Appl Mech 90, 2379–2395 (2020). 

  • [7] Zhou M, Al-Furjan MSH, Wang B. Modeling and Efficiency Analysis of a Piezoelectric Energy Harvester Based on the Flow Induced Vibration of a Piezoelectric Composite Pipe. Sensors. 2018; 18(12):4277. 

  • [8] Maoying Zhou, Qinzhong Chen, Zhenlong Xu, and Wen Wang , Piezoelectric wind energy harvesting device based on the inverted cantilever beam with leaf-inspired extensions, AIP Advances 9, 035213 (2019).

  • [9]Maoying Zhou, Yang Fu, Ban Wang, Huawei Ji,Investigation upon the performance of piezoelectric energy harvester with elastic extensions,Applied Mathematical Modelling,Volume 83,2020,Pages 438-453,ISSN 0307-904X.

  • [10]Maoying Zhou, Yang Fu, Ban Wang, Mohannad Saleh Hammadi Al-Furjan,Vibration analysis of a longitudinal polarized piezoelectric tubular energy harvester,Applied Acoustics,Volume 146,2019,Pages 118-133,ISSN 0003-682X.

  • [11]Wang, B., Zhou, M., Zhu, D. et al. Modeling and analysis of the piezoelectric vibration energy harvester with externally connected inductor. Acta Mech 233, 2701–2717 (2022).

  • [12]Huang, S., Dong, G. & Zhou, M. Low-Frequency Broadband Piezoelectric Vibration Energy Harvester Based on Double L-shaped Beam Structures. J. Vib. Eng. Technol. 10, 3179–3189 (2022).

  • [13]Yang Fu, Meiling Huang, Ruiming Wu, Feng Huang, Maoying Zhou, Suifan Chen, Qibing Wang, and Qipeng Li , Piezoelectric vibration energy harvesting device based on water sloshing-inspired extensions, AIP Advances 11, 065205 (2021).

  • [14]Shan, L.; Kadhum, A.A.H.; Al-Furjan, M.S.H.; Weng, W.; Gong, Y.; Cheng, K.; Zhou, M.; Dong, L.; Chen, G.; Takriff, M.S.; Sulong, A.B. In Situ Controlled Surface Microstructure of 3D Printed Ti Alloy to Promote Its Osteointegration. Materials 2019, 12, 815.

  • [15]Xu, Z.; Yang, H.; Zhang, H.; Ci, H.; Zhou, M.; Wang, W.; Meng, A. Design and Analysis of a Magnetically Coupled Multi-Frequency Hybrid Energy Harvester. Sensors 2019, 19, 3203. 

  • [16]Liu Lei, Chen Fu, Luo Kun, Pan Huachen, Qin Huawei, Wang Fang, Zhou Maoying, and Tian Xiaoqing,Blowing–Suction Control in S-Shaped Inlet and Its Impact on Fan-Stage Performance,AIAA Journal 2019 57:9, 3954-3968.

  • [17]Yang Fu, Yimin Hu, Feng Huang, Maoying Zhou, The Impact of Pulsatile Flow on Suspension Force for Hydrodynamically Levitated Blood Pump, Journal of Healthcare Engineering, vol. 2019, Article ID 8065920, 6 pages, 2019.

  • [18]Weiting Liu, Maoying Zhou, Xiaodong Ruan, Xin Fu,Non-smooth model and numerical analysis of a friction driven structure for piezoelectric motors,InternationalJournal of Non-Linear Mechanics,Volume 91,2017,Pages 140-150,ISSN 0020-7462.

  • [19] Xu Z, Wang W, Xie J, Xu Z, Zhou M, Yang H. An Impact-Based Frequency Up-Converting Hybrid Vibration Energy Harvester for Low Frequency Application. Energies. 2017; 10(11):1761. 

  • [20]Liu W, Zhou M, Stefanini C, Fu X. Modeling and preliminary analysis of a miniaturized rotary motor driven by single piezoelectric stack actuator. Journal of Intelligent Material Systems and Structures. 2016;27(11):1476-1484. 




荣誉及奖励
著作
专利成果
软件成果

[1] 周茂瑛,黄世帆,孟爱华,王班,代裴飞,魏德华,一种基于风致振动的压电-电磁耦合能量收 集装置及方法,2021.09.07,中国,bob电竞ios ZL202011319619.0.

[2] 傅新, 周茂瑛,刘伟庭,一种基于压电堆振动冲击的旋转电机,2015.09.16,中国,浙江大学,ZL201310651257.9.

[3] 傅新, 周茂瑛,刘伟庭,一种新型微小步行机器人及其驱动方法,2016.03.02,中国,浙江大学,ZL201310651256.4.
研究领域
教学与课程
科研项目
科研成果