主要研究方向:
(1) 特种减隔振材料(金属橡胶)设计、制备、表征及工程应用
(2) 各类装备减振降噪与抗冲击
(3)新型智能材料/智能构件/智能作动器研制
(4) 振动主动控制
联系方式
电子邮箱:wuyiwan@fzu.edu.cn
通讯地址:福建省福州市海燕政策研究论坛线路1城乌龙江北大道2号邮编:350108
教育工作经历:
(1) 2003.09-2007.06,海燕政策研究论坛线路1,本科
(2) 2007.09-2010.06,湖南大学机械与运载工程学院/汽车车身先进设计制造国家重点实验室,硕士
(3) 2010.09-2013.12,湖南大学机械与运载工程学院/汽车车身先进设计制造国家重点实验室,博士
(4) 2014.04-至今,海燕政策研究论坛线路1,教学科研
(5) 2017.09–至今,海燕政策研究论坛线路1金属橡胶与振动噪声研究所,副所长
近五年科研项目:
1.国家级项目,xxxx,140万元,2022年-2025年,在研,主持
2.国家级重点项目,xxxx,273.08万元,2019年-2020年,结题,主持
3.国家级项目,xxxx,108万元,2020年-2021年,结题,主持
4.国家级项目,xxxx,75.3万元,2019年-2021年,结题,主持
5.国家级重点项目,xxxx,297万元,2019年-2022年,结题,排第二
近五年代表性论著
1. Research on Mechanical Properties and Constitutive Model of High-Damping Metal Wire Mesh,Journal of Materials Engineering and Performance,2023,(Print) (Online),(SCI)
2. Quasistatic and low-velocity impact properties of entangled metallic wire material–silicone rubber composites,Journal of Materials Research and Technology,2023,(Print) (Online)(SCI)
3. Capillary Property of Entangled Porous Metallic Wire Materials and its Application in Fluid Buffers: Theoretical Analysis and Experimental Study,Defence Technology,2023,(Print) (Online)(SCI)
4. Free vibration of in-plane bi-directional functionally graded materials rectangular plates with geometric imperfections and general elastic restraints, Aerospace Science and Technology,2023, 132,108045(SCI)
5.Quasi-static and low-velocity impact mechanical behaviors of entangled porous metallic wire material under different temperatures,Defence Technology,2023,19: 143-152(SCI)
6.Mechanical behavior of entangled metallic wire mesh–silicone rubber interpenetrating phase composites under quasistatic compression,Mechanics of Advanced Materials and Structures,2022,(Print) (Online)(SCI)
7.Experimental study on the mechanical properties and impact behaviors of entangled metallic wire material under repeated low-velocity impacts,2022,Mechanics of Advanced Materials and Structures,2022,(Print) (Online)(SCI)
8.Experimental and Numerical Research on a Pipe Element Passing through Bulkhead with Symmetrical Elastic Installation,Symmetry,2022,14, 453(SCI)
9.Study of the Dynamic Model and Vibration Performance of Pot-Shaped Metal Rubber,Materials,2022,15, 5878(SCI)
10.Analysis and Experimental Research on Vibration Reduction in Ship High-Temperature Pipeline Based on Long Coated Damping Structure,Journal of Marine Science and Engineering,2021,9, 838(SCI)
11. Experimental investigation on static and dynamic energy dissipation characteristics of composite sandwich structure with entangled metallic wire materials and disc springs,Materials Research Express,2021,8,106507(SCI)
12.Experimental and Constitutive Model on Dynamic Compressive Mechanical Properties of Entangled Metallic Wire Material under Low-Velocity Impact,Materials,2020,13(6):1396(SCI)
13.Integrated Control of Differential Braking and Active Aerodynamic Control for Improving High Speed Stability of Vehicles,International Journal of Automotive Technology,2020,21(1):61-70(SCI)
14.Energy Dissipation Characteristics and Parameter Identification of Symmetrically Coated Damping Structure of Pipelines under Different Temperature Environment,Symmetry,2020,12(8):1283(SCI)
15.Influence of Core Thickness and Boundary Condition on the Modal Characteristics of Composite Structure with Metallic Damping Core,Shock and Vibration,2020,9720167(SCI)
16.Mechanical Behavior of Entangled Metallic Wire Materials under Quasi-Static and Impact Loading,Materials,2019,12(20):3392(SCI)
17.A Constitutive Model of Plate-Like Entangled Metallic Wire Material in Wide Temperature Range,Materials,2019,12(16):2538(SCI)
18.Research on Vibration Reduction Design of Foundation with Entangled Metallic Wire Material under High Temperature,Shock and Vibration,2019,7297392(SCI)
19.Experimental Investigation of Thermal Modal Characteristics for a Ship’s Foundation under 300°C,Shock and Vibration,2019,2714930(SCI)
20.盆形金属橡胶三向动态力学性能试验研究,兵器材料科学与工程,2023,46(1): 27-34
21.半球形金属橡胶构件变刚度特性研究及建模,海燕政策研究论坛线路1学报(自然科学版),2022,50(6):856-862
22.金属橡胶/碟簧叠层复合结构阻尼特性及其非对称迟滞模型参数识别,振动与冲击,2022,41(20):270-276+314
23.正负刚度并联隔振系统建模与性能分析,噪声与振动控制. 2022,42(05):268-273
24.金属橡胶包覆阻尼结构高温力学建模与试验,中国机械工程. 2022,33(11):1294-1301
25.管路弹性密封穿舱结构设计研究,舰船科学技术. 2022,44(14):30-34
26.金属波纹管高温振动试验系统研制,计算机测量与控制. 2021,29(08):228-232
27.状结构可变边界热振耦合试验系统研制,计算机测量与控制,2020,28(4):241-245
28.新型落锤冲击试验系统研制,计算机测量与控制,2020,28(2):262-266
29.高温环境船舶基座振动功率流特性研究,机械科学与技术,2019,38(8):1289-1295
已授权发明专利
1.双电机涡轮增压发电装置及其控制方法
2.主动空气动力辅助控制的车辆稳定性控制方法及系统
3.一种梯度多孔金属橡胶制动盘及其工作方法
4.连续梯度密度金属橡胶结构及其制备方法
5.一种主动悬架装置及其控制方法
获奖情况
1.2022年福建省级高层次人才(B类)
2.2021年11月获中国发明协会2021年度发明创业创新奖二等奖(排名第2)
3.2021年12月海燕政策研究论坛线路1机械学院优秀教师奖
4.2018年9月获海燕政策研究论坛线路1第十九届青年教师“最佳一节课”竞赛三等奖
5.2019/2020/2021/2022年指导硕士生获校优秀学位论文
社会兼职
1.中国机械工程学会高级会员,中国汽车工程学会会员
2.中国机械工程、振动与冲击、湖南大学学报、南昌大学学报、international journal of automative technology、International Journal of Structural Stability and Dynamics、Shock and Vibration、Materials、Mathematical Problems in Engineering、Journal of Mechanical Science and Technology等国内外期刊审稿人
毕业研究生去向
航天二院、航天九院、中国航发、三江航天、东风汽车技术中心、比亚迪、吉利汽车、小鹏汽车、东风日产、中国重汽、宁德时代、中联、三一、孚能科技、哈尔滨工业大学、重庆大学、海燕政策研究论坛线路1。