温变英,工学博士,教授,北京市高等学校教学名师。兼任北京新材料技术协会副会长;中国塑料加工工业协会专家委员会/塑料技术协作委员会副秘书长,中国塑料加工工业协会团体标准化技术委员会委员,《中国塑料》杂志编委。中国化学会高级会员,中国复合材料学会导热复合材料专业委员会委员,中国电工学会高级会员,中国电工学会绝缘材料与绝缘技术专业委员会委员。
主讲《聚合物加工原理》、《实用流变学》等专业主干课程,主编《高分子材料与加工》、《高分子材料加工》、《高分子材料成型加工新技术》、《塑料测试技术》等教材和著作5部,获评北京高等教育精品教材和北京市优质教材课件各1部、入选中国轻工业“十三五”规划教材1部。主要研究领域为高分子导热、导电、电磁屏蔽功能复合材料、生物基塑料及绿色复合材料、高分子材料改性与加工、高分子材料循环利用等。作为课题负责人先后承担了包括国家自然科学基金在内的多项科研项目,已在国内外重要学术刊物上发表学术论文140余篇,授权国家发明专利17项。
联系方式:
E-mail:wenby@ btbu.edu.cn
办公室:东区耕耘楼9904室
通讯地址:北京市海淀区阜成路11号 邮编100048
获奖情况:
2022主讲《实用流变学》课程教学改革的探索与实践获评葡萄新京优秀研究生公司产品成果一等奖,主编《高分子材料成型加工新技术》获评葡萄新京优秀研究生公司产品成果——研究生精品教材奖,获评葡萄新京优秀硕士学位论文指导教师;
2021获评葡萄新京优秀共产党员、优秀硕士学位论文指导教师、主编《高分子材料加工》教材获评葡萄新京优秀教学成果二等奖;
2020主编《塑料测试技术》获评中国石油和化学联合会优秀出版物图书二等奖、获评葡萄新京优秀硕士学位论文指导教师;
2019年主编《高分子材料加工》获批北京高校优质本科教材课件、获评葡萄新京优秀硕士学位论文指导教师;
2018年获评葡萄新京优秀研究生导师、葡萄新京研究生教学成果一等奖;
2017年获第十三届北京市高等学校教学名师奖、葡萄新京“挑战杯”老员工课外学术科技作品竞赛优秀指导教师、优秀硕士学位论文指导教师;
2017/2015/2012年葡萄新京就业工作贡献奖;
2016年获评葡萄新京优秀教师、优秀硕士学位论文指导教师;
2014年获评葡萄新京优秀教师、葡萄新京2014年度人物、优秀硕士学位论文指导教师;
2013年主编《高分子材料与加工》获批北京高等教育精品教材、被评为葡萄新京优秀共产党员、优秀硕士学位论文指导教师;
2012年获评葡萄新京科研先进工作者;
2011年获评北京市教育先锋教书育人先进个人;
2006年入选北京市高校中青年骨干教师。
近5年代表性论文:
[1] Shimin Wang, and Bianying Wen*,Effect of functional filler morphology on the crystallization behavior and thermal conductivity of PET resin: A comparative study of three different shapes of BN as heterogeneous nucleating agents,Composites science and technology,2022,222:109346
[2] Chao Jiang, and Bianying Wen*, Electromagnetic wave absorption performance and mechanism of Co/C composites derived from different cobalt source ZIF-67: a comparative study, Journal of Materials Science: Materials in Electronics,2022, 33, 5730–5749
[3] Chao Jiang, Bianying Wen*, Baomin Fan* and Manman Wang, A tremella-like mesoporous calcium silicate loaded by TiO2 with robust adsorption and photocatalytic degradation capabilities, Journal of Wuhan University of Technology-Mater. Sci. Ed. 2022,37(2):184-193
[4] Wang Zhichao, Wen Bianying*, Zhou Jie, Zhao Xin; Zhang Xiaoyuan, Su Zhiqiang*, Heterostructured ZnCdS@ZIF-67 as a Photocatalyst for Fluorescent Dye Degradation and Selectively Nonenzymatic Sensing of Dopamin, Materials , 2022, 15(21), 7683;
[5] Shuangqiao Yang*, Zhibo Jin, Chunyang Song, Zhicen Pu, and Bianying Wen,*
The fabrication of polyethylene/graphite nanoplatelets composites for thermal management and electromagnetic interference shielding application,Journal of Materials Science,2022, 57 (2) :1084-1097
[6] Xiaojuan Zhang, Meihua Gong, Yunliang Dai and Bianying Wen*,Construction of One-dimensional MoO2/NC Heteronanowires for Microwave Absorption,RSC Advances, 2022, 12(9), 5157 – 5163
[7] Tianhang Weng, Zejian He, Zhaohua Zhang, Yulong Chen, Mi Zhou*, Bianying Wen* , A facile method of functional derivatization based on starch acetoacetate, Carbohydrate Polymers,2022, 289: 119468
[8] Wei Huijie, Zhao Shujing, Zhang Xiaoyuan, Wen Bianying*; Su Zhiqiang*, The future of freshwater access: functional material-based nano-membranes for desalination,Materials Today Energy, 2021, 22: 100856.
[9] Xiaomei Wu, Bianying Wen*, Vermicular Ni@RL-CS:Preparation, characterization and its applications in electromagnetic shielding, Ceramics international, 2021, 47 (20) :28698–28713
[10] Jie Tang, Guohua You, Lu Ruan, Yi Lu, Bianying Wen* and Sizhu Wu*,Antioxidant Behavior Affected by Polarity in the Olive Oil: Experimental and Molecular Simulation Investigations, ACS Omega, 2021, 6:7119−7126
[11] Shuangqiao Yang*, Qi Wang, and Bianying Wen*, Highly Thermally Conductive and Superior Electrical Insulation Polymer Composites via In Situ Thermal Expansion of Expanded Graphite and In Situ Oxidation of Aluminum Nanoflakes, ACS Appl. Mater. Interfaces,2021, 13(1):1511-1523
[12] Xiaomei Wu, Bianying Wen*,A cauliflower-shaped nickel @ porous calcium silicate core-shell composite: Preparation and enhanced electromagnetic shielding performance,Composites science and technology,2020, 108343
[13] Bianying Wen* ,Liubin Ma , Wenqi Zou, Xiaolei Zheng, Enhancing effect of poly(lactic acid) crystallization on the thermal conductivity of poly(lactic acid)/Alumina composites, Journal of Materials Science: Materials in Electronics, 2020, 31(8):6328-6338
[14] Manman Wang, Bianying Wen*, Baomin Fan*, and Huijuan Zhang, Study on adsorption mechanism of silicate adsorbents with different morphologies and pore structures towards formaldehyde in water, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2020, 599:124887
[15] Wang Manman, Fan Baomin*, Wen BianYing*, Jiang Chao, Experimental and theoretical studies on the removal mechanism of formaldehyde from water by mesoporous calcium silicate, SCIENCE CHINA Technological Sciences, 2020, 63:2098–2112
[16] Xuwen Wu, Zhuo Luo, Yan Lei, Bianying Wen*, and Dongzhi Yang*,Hierarchical TiO2 Nanorod Arrays/Carbon Nanofiber Membranes for Oil-in-Water Emulsion Separation,Industrial & Engineering Chemistry Research,2020, 59(48):21097-21105
[17] Liu Yuqi; Wei Mingyue; Jiang Xingyu; Ren Mingwei; Liu Lianying*; Wen Bianying*; Yang Wantai, Anomalously Shaped Functional Particles Prepared by Thiol-Isocyanate Off-Stoichiometric Click Dispersion Polymerization, Langmuir,2020, 36(47):14417-14424
[18] Zhou Nan, Liu Tianjiao, Wen Bianying*, Gong Coucong, Wei Gang*, SuZhiqiang*, Recent Advances in the Construction of Flexible Sensors for Biomedical Applications,Biotechnology Journal,2020, 15:200094
[19] Xuejiao Wang, Bianying Wen*, Xiangjing Yang,Construction of nickel@graphite nanoplate core-shell structural functional particles with high electromagnetic shielding effectiveness,Composites Part B: 2019, 173:106904
[20] Bianying Wen*, Xiaolei Zheng, Effect on Electrical and Thermal Conductivity for the selective distribution of GNPs in PBT/PC blend, Composites science and technology,2019,174:68-75
[21] BianYing Wen*, XueJiao Wang, Yang Zhang,Ultrathin and flexible polyvinyl butyral/Ni-graphite/short-cut carbon fiber film with high electromagnetic shielding performance,Composites science and technology,2019, 169:127-134
[22] Xiaolei Zheng, Bianying Wen*, Practical PBT/PC/GNPs composites with anisotropic thermal conductivity, RSC Advances, 2019, 9(62):36316-36323.
[23] BianYing Wen*, Chunhua Huan, Peng Liu, Yang Zhang,Resistance Gradient Polymeric Electromagnetic Shielding Composites: Preparation and Characterization, Polymer composite,2019,40(5):1842-1849.
[24] Zhang Xiaoyuan, Wei Wenfeng, Zhang Shan, Wen Bianying*,Su Zhiqiang*, Advanced 3D Nanohybrid Foam Based on Graphene Oxide: Facile Fabrication Strategy, Interfacial Synergetic Mechanism and Excellent Photocatalytic Performance,SCIENCE CHINA Materials,2019, 62(12):1888-1897
[25] Munan Qiu, Yang Zhang*, Bianying Wen*, Facile synthesis of polyaniline nanostructures with effective electromagnetic interference shielding performance, Journal of Materials Science: Materials in Electronics, 2018, 29 (12):10437-10444
[26]Yaxin Liu, Ning Fang, Bin Liu, Linna Song, Bianying Wen*, Dongzhi Yang*,Aligned porous chitosan/graphene oxide scaffold for bone tissue engineering, Materials Letters, 2018, 233:78–81
[27] 王世民,温变英*, 模压氮化硼/聚对苯二甲酸乙二醇酯复合材料的导热机制与散热效果. 复合材料学报, 2023, 40(1): 160-170.
[28 刘金宇,贾勇星,温变英*,邱穆楠,生物降解聚酯/秸秆纤维全生物降解复合材料研究进展. 中国塑料,2022,(11):183-191
[29] 崔云超,温变英*,聚合物本征导热研究进展. 高分子材料科学与工程,2022,38(7):175-182
[30] 姜 超,华楚侨,温变英*,MOFs基核壳结构电磁波吸收材料研究进展. 材料导报, 2022,36( 16) : 21030206
[31] 林夏泽,温变英*,界面效应对功能复合材料热传导行为的影响. 复合材料学报,2022,39(4):1501-1513
[32] 臧晓玲,温变英*,高分子材料绿色制造与可持续发展. 中国塑料,2021,(8):9-20
[33] 王雪娇,杨向璟,温变英*,聚乙烯醇缩丁醛/镀镍石墨复合材料薄膜的电磁屏蔽性能及机理. 高分子材料科学与工程,2019,35(5):51-56
[34] 温变英*,段磊,PEI/Ni梯度电磁屏蔽薄膜材料抗腐蚀性研究. 材料导报B,2019, 33(3):1065-1069
[35] 张一铭,郑小磊,温变英*,PBT/PC/GNP复合材料导热导电性能的温度依赖性. 工程塑料应用,2019,47(10):18-23
[36] 王满曼,温变英*,樊保民,VOCs吸附剂及其吸附机理研究进展. 中国塑料,2019,33(8):113-119
[37] 温变英*,王雪娇,方晓霞,张扬,碳系导电填料性质对PVB基功能薄膜结构及其电磁屏蔽效能的影响. 材料导报B,2018,32(12):4346-4350
[38] 马刘彬,温变英*,张一辉,GNP/Al2O3填充聚丙烯导热复合材料研究. 工程塑料应用,2018,46(10):10-16
[39] 朱炳发, 温变英*, 张扬,PA6基绝缘导热工程塑料老化性能研究. 绝缘材料, 2018, 51(5):22-28.
[40] 郭康丽,张一辉,张一铭,李亚杰,王满曼,温变英*,聚合物阻隔薄膜及其发展应用.工程塑料应用,2018,46(1):128-133
代表性发明专利:
[1] 温变英,赫达,一种热塑性聚醚酰亚胺绝缘导热复合材料及其制备方法,2021年授权,ZL201810036655.2
[2] 温变英,武晓梅,一种电磁屏蔽复合材料及其制备方法,2021年授权, ZL 201911293952.6
[3] 邓健能, 温变英,阳范文,何健,毋亭亭,一种增塑可生物降解聚酯薄膜及其制备方法, 2018年授权,ZL201610021447.6
[4] 温变英,郝鲁阳,邹文奇,张宜鹏,张辉,一种尼龙基导热复合材料及其制备方法, 2018年授权,ZL201610632928.0
[5] 温变英,邹文奇,郭赫楠,一种聚对苯二甲酸丁二醇酯/聚碳酸酯绝缘导热复合材料及其制备方法, 2016年授权,专利号L201510069215.3
[6]温变英,张扬,一种耐高温聚合物基电磁屏蔽梯度功能材料, 2016年授权, ZL201310726502.8
[7] 温变英,张扬,一种绝缘聚合物基电磁屏蔽材料及其制备方法, 2015年授权,ZL201310726505.1
[8] 温变英,宦春花,聚合物基导电梯度功能材料及其制备方法, 2011年授权,专利号ZL 200910237552.3