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个人简介

个人简介 王金伟,1966年生,博士,副教授,硕士生导师。2001年新加坡国立大学获得工学博士学位,2002.07-至今,北京科技大学从事教学与科研工作。承担本科课程:高分子化学,材料分析与表征方法等; 研究生课程:环境材料化学, 涂料化学等, 培养硕士研究生30余名. 主要从事高分子材料的表面及界面研究工作,包括高分子功能材料, 高分子与金属的表面及界面作用, 特殊形状特殊环境服役器件表面处理技术(防护\密封\粘接). 发表论文60余篇, 其中SCI40余篇, 授权专利7项. 在民口配套项目支持下开发的 “紫铜表面耐腐蚀耐磨涂层” 产品获得重庆长安工业(集团)有限责任公司的认可和好评,连续供货10年用于紫铜弹带的工序间和长期防腐防护; 该技术产品无色透明\环保\耐蚀性优异, 适合多种工艺, 在铜管\铜雕塑\不锈钢雕塑等领域初步使用效果良好, 期望更好地推广服务社会

研究领域

1.新型功能涂层(防腐、隔热、耐磨) 2.高分子复合材料(导电、增韧) 3.有色金属合金(钛、铝、镁)表面处理及配套涂层

专利   1. 王金伟,陈磊,一种虫胶改性制备环保型涂层材料的方法, ZL200510086579.9   2. 王金伟,陈磊,一种环保型耐腐蚀涂料的制备方法,ZL200610112787.6 (转让)   3. 王金伟,唐金伟,一种环保型耐腐蚀涂料及其制备方法,ZL200810114813.8   4.王金伟, 吴欣雨, 霍姗姗, 一种高性能环保型导电涂料的制备方法, ZL201510162098.5

近期论文

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近年代表论文(*为通讯作者):   (1) Jinwei Wang* ; Yue Ma; Jie Guan; Dawei Zhang, Characterizations of anodic oxide films formed on Ti6Al4V in the silicate electrolyte with sodium polyacrylate as an additive, Surface and Coatings Technology 2018(338)14~2   (2) Wang, Jinwei* ; Wu, Qiang, The effects of anodic interlayer on the morphology and mechanical performances of electroless Ni-P coating on Al alloy, Applied Physics A-Materials Science & Processing 2017 (123)435~443   (3) Wang Jinwei*, Tian Yunpei, Zhang Jin, Thermal insulating epoxy composite coatings containing sepiolite/hollow glass microspheres as binary fillers: morphology, simulation and application, Science and Engineering of Composite Materials24(2017)379-386   (4) Huo Shanshan, Wang Jinwei*, Wu Xinyu, Morphology, thermal and mechanical performances of SR composites containing sepiolite and HGMs as binary fillers, Journal of Polymer Engineering 37(2017)197-204   (5) Wu Di, Wang Jinwei*, Preparation and characterizations of RTV epoxy blends using amide maleic anhydride-g-liquid polybutadience as both reactive toughening and curing components, Journal of Applied Polymer Science 135(2017)45985-45992   (6) Wang, Jinwei* ; Chen, Jiali, The Effect of Silane on the Microstructure, Corrosion, and Abrasion Resistances   of the Anodic Films on Ti Alloy, Journal of Materials Engineering and Performance 2016(25)1594~1602   (7)Gao Limei, Wang Jinwei*, Thermal, mechanical, and dielectric studies on the DGEBA epoxy blends by using liquid oxidized poly (1, 2-butadiene) as a reactive component, Journal of Applied Polymer Science 133(2016)44689-44696   (8) Yuan, Hongye; Wang, Jinwei* ; Chen, Jiali, Phosphate coating on stainless steel prepared in electrolyte with silica sol: Zinc segregation, post-treatment and corrosion resistance , Corrosion Engineering, Science and Technology 2014( 49)197~203   (9) Chen, Jiali; Wang, Jinwei* ; Yuan, Hongye, Morphology and performances of the anodic oxide films on Ti6Al4V alloy formed in alkaline-silicate electrolyte with aminopropyl silane addition under low potential , Applied Surface Science 2013(284)900~906   (10) Wang, Jinwei *; Zhao, Ge,Conductive performances of elastomeric electrolytes based on maleic nhydride-g- poly(1, 2-butadiene) grafting polyethylene glycol 400 and LiClO4 , Journal of Applied Polymer Science 2013(128)2408~2413   (11) Zhu, Feng; Wang, Jinwei* ; Li, Shanghua; Zhang, Jin, Preparation and characterization of anodic films on AZ31B Mg alloy formed in the silicate electrolytes with ethylene glycol oligomers as additives , Applied Surface Science 2012( 258)8985~8990   (12)Zhang Ruimin, Wang Jinwei*, Wang Minjia, He Yedong, Fabrication of honeycomb polyvinyl butyral film under humidity provided by super saturated salt solutions,Journal of Applied Polymer Science124(2012)495-500   (13) Wang, Jinwei* ; Tang, Jinwei; He, Yedong, Top coating of low-molecular weight polymer MALPB used for enhanced protection on anodized AZ31B Mg alloys , Journal of Coatings Technology and Research 2010(7) 737~746   (14) Li, Yawen; Wang, Jinwei* ; Tang, Jinwei; Liu, Yupeng; He, Yedong, Conductive performances of solid polymer electrolyte films based on PVB/LiClO4 plasticized by PEG(200), PEG(400) and PEG(600) , Journal of Power Sources 2009(187)305~311   (15) Wang, Jinwei* ; Chen, Lei; He, Yedong, Preparation of environmental friendly coatings based on natural shellac modified by diamine and its applications for copper protection , Progress in Organic Coating 2008(62) 307~312

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