王建 教授
博士、德国洪堡资深学者、北京化工大学教授、青年英才百人,中国塑料加工工业协会专家、中国塑料加工工业协会注塑制品专委会理事,InTech、Polymers客座编辑,Scientific Reports、Physics of Fluids、Composites Science & Technology、Composites Part A、Polymer、Polymer Testing、Journal of Materials Science、Polymer Composites、Polymer Engineering & Science、Journal of Applied Polymer Science、Macromolecular Materials & Engineering、Advances in Polymer Technology、Journal of Material Cycles and Waste Management、Advances in Mechanical Engineering、Recent Patents on Mechanical Engineering、Journal of Plastic & Film Sheeting、Journal of Material Cycles & Waste Management、Iranian Polymer Journal、Chinese Journal of Polymer Science、《化工学报》、《化工进展》、《塑料》、《塑料科技》等期刊审稿专家。
以聚合物及其复合材料先进成形技术的研究方向,主要在塑料精密智能注射成型、热塑性复合材料及其制品成型技术、大长径比双螺杆挤出装备与应用方面取得系列研究成果。发表学术论文100余篇,其中以第一或通讯作者发表SCI论文30余篇(国际顶级期刊15篇);主编英文著作《Some Critical Issue for Injection Molding》,主译《国际机械工程先进技术译丛:注塑模具设计工程-Injection Mold Design Engineering》,参写《Polypropylene - Based Biocomposites and Bionanocomposites》、《Reference Module in Materials Science and Materials Engineering》、《注射成型新技术》、《高分子材料注射成型CAE理论及应用》;获授权国家专利50余项。主持国家自然科学基金、国家重点研发计划子课题、国家基础科研计划等纵向项目10余项,主持产学研技术服务、研发及转化横向项目10余项;参与德国科学基金会持续资助项目、国家科技工业基础产品创新计划、国家共同安全技术基础研究、国家科技支撑计划、国家自然科学基金、北京市自然科学基金项目等。最新研究成果曾获2020年度北京市自然科学进步二等奖和2019年度德国SFB合作研究中心优秀论文奖。博士研究成果作为部分内容曾获2011年国家科学技术进步二等奖和2010年中国石油和化学工业联合会科技进步二等奖。
教育与工作经历:
2001-2010,北京化工大学本硕博学习
2009-2010,美国威斯康辛大学麦迪逊分校(University of Wisconsin – Madison)学习
2010-2018,北京理工大学工作
2017-2020,德国亚琛工业大学(RWTH Aachen University)塑料加工研究院(IKV,Institute for Plastics Processing)工作
主要研究方向:
精密注射成形技术
聚合物复合材料先进成形技术
先进挤出成形技术
代表性著作:
Polypropylene-Based Biocomposites and Bionanocomposites第7章Polypropylene Single-Polymer Composites, Wiley, 2018, ISBN: 9781119283560
Reference Module in Materials Science and Materials Engineering - Ceramic Injection Molding, Oxford: Elsevier, 2016, ISBN: 9780128035818
《注射模具设计工程》, 主译, 北京:机械工业出版社, 2013, ISBN: 9787111441199
Some Critical Issues for Injection Molding, 主编, 并编写第1章, InTech, 2012, ISBN 9789535102977
《注射成型新技术》第6章, 化学工业出版社, 2008,ISBN:9787122019127
《高分子材料注射成型CAE理论及应用》第1章,化学工业出版社, 2008, ISBN: 9787122034427
代表性论文:
Wang, J.*, et al. Self-reinforced composites based on polypropylene fiber and graphene nano-platelets / polypropylene film. Carbon, 2022, 189: 586. (top)
Wang, J.*, et al. Gel-spinning of ultra-high molecular weight polyethylene by a twin-screw extruder with an ultra-large length-to-diameter ratio. Polymer Engineering and Science, 2022, 62(11): 3773-3785.
Wang, J.*, et al. Fabric insert injection molding for the preparation of ultra-high molecular weight polyethylene / high-density polyethylene two-component self-reinforced composites. Polymers, 2022, 14(20): 4384.
Wang, J.*, et al. Unidirectional continuous fiber-reinforced polypropylene single-polymer composites prepared by extrusion–calendering process. Journal of Thermoplastic Composite Materials, 2022, 35(3): 303-319.
Wang, J.*, et al. Effects of injection molding parameters on properties of insert-injection molded polypropylene single-polymer composites. Polymers, 2022, 14(1): 23.
Wang, J.*, et al. Prediction of specific volume of polypropylene at high cooling rates by artificial neural networks. Industrial and Engineering Chemistry Research, 2021, 60: 14434. (top)
Wang, J.*, et al. Process dependence of pressure-specific volume-temperature measurement for amorphous polymer: Acrylonitrile-butadiene-styrene. Polymer Testing, 2020, 81: 106232. (top)
Wang, J.*, et al. Continuous two-domain equations of state for the description of the pressure-specific volume-temperature behavior of polymers. Polymers, 2020, 12(2): 409.
Wang, J.*, et al. Non-isothermal crystallisation kinetics of polypropylene at high cooling rates and comparison to the continuous two-domain pvT model. Polymers, 2020, 12 (7), 1515.
Wang, J.*, et al. Modeling of pressure-specific volume-temperature behavior of polymers considering the dependence of cooling and heating processes. Materials and Design, 2020, 109110. (top)
Wang, J.*, et al. The incorporation of graphene to enhance mechanical properties of polypropylene self-reinforced polymer composites. Materials and Design, 2020, 109073. (top)
Wang, J.*, et al. Measurement of specific volume of polymers under simulated injection molding processes. Materials and Design, 2020, 109136. (top)
Wang, J.*, et al. Influence of measurement processes on pressure-specific volume-temperature relationships of semi-crystalline polymer: Polypropylene. Polymer Testing, 2019, 78: 105992. (top)
Wang, J.*, et al. Modeling of pvT behavior of semi-crystalline polymer based on the two-domain Tait equation of state for injection molding. Materials and Design, 2019, 183: 108149. (top)
Wang, J.*, et al. Insert injection molding of low-density polyethylene single-polymer composites reinforced with ultrahigh-molecular-weight polyethylene fabric. Journal of Thermoplastic Composite Materials, 2018, 31(8): 1013-1028.
Wang, J.*, et al. Properties of insert injection molded polypropylene single‐polymer composites with uniaxial fibers. Macromolecular Symposia, 2018, 378(1): 1600154.
Wang, J.*, et al. Extrusion–calendering process of single-polymer composites based on polyethylene. Polymer Engineering and Science, 2018, 58(12): 2156-2165.
Wang, J.*, et al. Flexural properties and morphology of microcellular-insert injection molded all-polypropylene composite foams. Composite Structures, 2018, 187: 403-410. (top)
Wang, J.*, et al. Microcellular polypropylene single-polymer composites prepared by insert-microcellular injection molding. Composites Part A, 2016, 90: 567-576. (top)
Wang, J.*, et al. Properties of polypropylene single-polymer composites produced by the undercooling melt film stacking method. Composites Science and Technology, 2015, 107: 82-88. (top)
Wang, J.*, et al. Insert injection molding of polypropylene single-polymer composites. Composites Science and Technology,2015, 106: 47-54. (top)
Wang, J.*, et al. Insert injection molding of high-density polyethylene single-polymer composites. Polymer Engineering and Science, 2015, 55(11): 2448-2456.
Wang, J.*, et al. Development and characterization of insert injection moulded polypropylene single-polymer composites with sandwiched woven fabric. Composites Science and Technology, 2015, 117: 18-25. (top)
Wang, J.*, et al. Polyethylene naphthalate single-polymer-composites produced by the undercooling melt film stacking method, Composites Science and Technology, 2014, 91: 50-54. (top)
Wang, J.*, et al. A novel process control methodology based on the P-V-T behavior of polymer for injection molding. Advances in Polymer Technology, 2013, 32(S1): E474-E485.
Wang, J.*, et al. Preparation of polypropylene single-polymer composites by injection molding. Journal of Applied Polymer Science, 2013,130(3): 2176-2183.
Wang, J.*, et al. Filling-to-packing switchover mode based on cavity temperature for injection molding. Polymer-Plastics Technology and Engineering,2011, 50(12): 1273-1280.
Wang, J., et al. On-line pressure-volume-temperature measurements of polypropylene using a testing mold to simulate the injection-molding process. Journal of Applied Polymer Science,2010, 118(1): 200-208.
Wang, J., et al. On-line testing equipment of P-V-T properties of polymers based on an injection molding machine. Polymer Testing, 2009, 28(3): 228-234. (top)
招生要求:
热爱科研、独立思考、勇于创新、踏实肯干、具备基本的机械设计能力和软件使用技能、实践动手能力强。
毕业生去向:
中国航天科技集团、万华化学集团、金发科技、核工业第二研究设计院、Intel、Sulzer Chemtech(日本)、Hanwha Azdel(美国)……