一、个人简介
王运雷,男,中共党员,博士/博士后,主要从事铝及铝基复合材料、高熵合金、陶瓷、3D打印及激光诱导高速微粒冲击等方面的科研工作,长期与意大利那不勒斯费德里克二世大学、瑞典皇家理工学院(KTH)及伊斯兰堡国立科大(NUST)保持密切合作。目前承担了电化学理论、材料现代分析方法及涂料与涂装等本科与研究生的相关专业课程,已在材料相关领域国际刊物(Sep. Purif. Technol., J. Energy Storage, Ceram. Int., J. Mater. Res. Technol., Mater. Today Commun., Mater. Lett.等)上公开发表高水平学术论文30余篇,授权国家专利30余项,出版学术专著1部,发布团体标准1项,主持及参与国家自科项目2项,省部级项目4项,区自然科学基金重点项目1项,横向科研项目100余项。长期担任Scientific Reports, Powder Metallurgy, Advanced Engineering Materials, Journal of Materials Engineering and Performance, Steel Research International等国际高水平SCI期刊审稿人。
E–mail:wangyunlei@cqwu.edu.cn
二、个人经历
2023.08–2024.12 瑞典皇家理工学院(KTH),博士后
2023.03–至今 中国兵器工业第五九研究所,博士后
2020.11–2023.01 重庆大学,材料科学与工程,博士后
2017.01–至今 永利集团,yl6809永利官网
2010.09–2016.12 重庆大学,材料科学与工程,博士
2006.09–2010.06 湖北汽车工业学院,材料工程,本科
三、研究方向
(1)铝及铝基复合材微结构先进表征技术,铝基电池储能技术
(2)金属电化学腐蚀与防护、铝合金阳极氧化及表面处理技术
(3)高熵合金及陶瓷、3D打印以及激光诱导高速微粒弹道冲击
四、科研成果
1. 科研项目:
(1)重庆市教委青年项目,高性能多尺度金属基复合材料的有序制备及其强韧化机制研究,KJQN202301306,2023.10–2026.09
(2)永川区自科基金,轻质高强SiC@ZrO2@Al复合材料的可控制备及其组织性能协调性关系的构建,2023yc–jckx20085,2023.07–2025.06
(3)重庆市教委青年项目,不同应力条件下低介电玻璃纤维复合材料性能变化规律研究,KJQN202301353,2023.10–2026.09
(4)重庆市教委青年项目,基于新能源汽车动力电池系统的正极铝箔织构调控及性能研究, KJQN202001301,2020.10–2023.10
(5)重庆市教委青年项目,多因素耦合条件下高性能纤维增强复合材料老化规律研究,KJQN202101318,2021.10–2024.10
(6)重庆市博士后国际交流培养计划项目,纳米金属基复合材料的表面特性与内部结构先进表征技术,2023.06–2025.06
(7)博士人才引进项目,高纯铝箔在退火过程中晶粒异常长大机理的研究,2017RCH01,2017.12–2021.12
(8)柏锐柯新材料,铝基复合材料制动盘的创新开发及应用研究,WLHX–2020–0048,2020.07–2023.07
(9)招商局新材料科技,冲床接片堆垛自动化,2018–WLHX–135,2018.07–2021.12
(10)重庆盈路通,基于金属表面处理的氧化膜缺陷分析及可控制备技术研究,WLHX–2021–0075,2021.01–2022.12
(11)四川瀚海精密,笔记本外壳成形工艺及自动化组装技术的研发,WLHX–2024–0036,2024.01–2025.12
2.代表论文:
[1] Yunlei Wang, Jie Zhang, Taibin Wu, Guangjie Huang, Perspective of theoretical study towards industrial applications for high–performance ceramic membrane, Separation and Purification Technology 357 (2025) 130077.
[2] Yunlei Wang, Fangzhou Yang, Taibin Wu, Guangjie Huang, Systematic overview of the preparation, interface characteristics, strengthening mechanisms, and challenges of graphene–reinforced Al matrix composites, Journal of Materials Research and Technology 33 (2024) 7709–7739.
[3] Yunlei Wang, Fangzhou Yang, Taibin Wu, Guangjie Huang, Roundly exploring the synthesis, structural design, performance modification, and practical applications of silicon-carbon composite anodes for lithium–ion batteries, Journal of Energy Storage 101 (2024) 113794.
[4] Yunlei Wang, Jie Zhang, Taibin Wu, Guangjie Huang, Full–scale insight into high–entropy ceramics from basic concepts, synthesis technologies, structural characteristics, and properties to application prospects, Journal of Materials Research and Technology 33 (2024) 398–430.
[5] Yunlei Wang, Jie Zhang, Taibin Wu, Guangjie Huang, An all–around way to analyse the corrosion behavior and the potential applications of high–entropy alloys coating, Ceramics International 50 (2024) 5893–5913.
[6] Yunlei Wang, Jie Zhang, Tabin Wu, Guangjie Huang, Advance understanding of the synthesis process, special performance, and multidiscipline applications of SiC nanowires and the constructed composites, Journal of Materials Research and Technology 29 (2024) 1131–1154.
[7] Yunlei Wang, Particle–target interactions of high–speed microparticle impact for resulting material modifications, Materials Today Communications 41 (2024) 110324.
[8] Yunlei Wang, Taibin Wu, Guangjie Huang, State–of–the–art research progress and challenge of the printing techniques, potential applications for advanced ceramic materials 3D printing, Materials Today Communications 40 (2024) 110001.
[9] Yunlei Wang, Tullio Monetta, Systematic study of preparation technology, microstructure characteristics and mechanical behaviors for SiC particle–reinforced metal matrix composites, Journal of Materials Research and Technology 25 (2023) 7470–7497.
[10] Yunlei Wang, Jie Zhang, A Review of the Friction and Wear Behavior of Particle–reinforced Aluminum Matrix Composites, Lubricants 2023, 11(8): 317.
[11] Yunlei Wang, Taibin Wu, Luchang Che, Guangjie Huang, Microstructure and Recrystallization Behavior of Heating Rate–Controlled Electrolytic Capacitor Aluminum Foil under Cold Forming and Annealing, Materials 2023, 16(11): 4128.
[12] Yunlei Wang, Liping Ren, Jingren Dong, Chuanchuan Cao, Xun Liu, Pan Jiang, Grain Size Prediction and Growth Thermo–Kinetics Analysis During Annealing with Different Heating Rates for High Voltage Anode Aluminum Foil, Rare Metal Materials and Engineering 2022, 51(6): 2020–2026.
[13] Yunlei Wang, Liping Ren, Fangzhou Yang, Qi Liu, Yu Cao, Hongwei Luo, Research Progress on Fabrication Technology and Properties of SiC Particle–Reinforced Aluminum Matrix Composites, Rare Metal Materials and Engineering 2022, 51(4): 1270–1282.
[14] Yunlei Wang, Fangzhou Yang, Liping Ren, Qi Liu, Yu Cao, Guangjie Huang, Microstructure and Texture of an Aluminum Plate Produced by Multipass Cold Rolling and Graded Annealing Process, Metals 2022, 12(2): 260.
[15] Yunlei Wang, Liping Ren, Qi Liu, Yu Cao, Guangjie Huang, Effect of residual deformation energy and critical heating rate on cubic texture and grain growth behavior of severely deformed aluminum foil, Materials 2022, 15(4): 1395.
[16] Yunlei Wang, Liping Ren, Jingren Dong, Chuanchuan Cao, Influence of Cold Rolled Deformation Degree and Heating Rates on Crystallite Dimension and Recrystallization Fraction of Aluminum Plates, Crystals 2021, 11(11): 1428.
[17] Jian Tu, Weihua Yang, Kang Xu, Zhiming Zhou, Yuchen Dou*, Yunlei Wang*, Effect of Ta content on stacking fault energy and microstructure characteristics of (VCoNi)100–xTax (x = 0, 0.05, 0.5 and 1) medium entropy alloy, Materials Letters 2021, 305(15): 130770.
3.授权专利:
(1)一种能去切口毛刺的金属型材切割装置,授权公告号:CN209550757U(2019)
(2)一种铝合金切割装置,授权公告号:CN209550756U(2019)
(3)一种机械设备的减震脚垫,授权公告号:CN209638652U(2019)
(4)一种金属板材零件装卸机械手,授权公告号:CN209939850U(2020)
(5)一种节能型金属板材机械钻孔装置,授权公告号:CN211438223U(2020)
(6)一种适用于码垛设备的落料结构,授权公告号:CN213010778U(2021)
(7)一种码垛机的接料盘,授权公告号:CN210763207U(2020)
(8)一种推料组件,授权公告号:CN211392967U(2020)
(9)一种铝片码垛设备,授权公告号:110615288B(2021)
(10)一种码垛机的落料对齐结构,授权公告号:CN113942840B(2023)
4.专著及标准:
(1)学术专著,人工智能在电气自动化行业中的应用,副主编,中国原子能出版社,2019.10.
(2)团体标准,笔记本电脑外壳,T/CST 14–2024,重庆市标准化协会 (CCS/L63),2024.02.05.