任俊文 副研究员/硕士生导师

专业：电气工程，高电压与绝缘技术

研究方向：电力设备绝缘劣化机理及故障检测，功能电介质材料

Email： jwren_scu@163.com；

地址：公司望江校区科技创新中心115；邮编：610065

学术任职与获奖

获国网四川电力公司科技进步一等奖1项；国际标准IEEE P2753 起草工作组成员，获突出贡献奖；全国直流输电与电力电子专委会学术年会优秀论文奖；第八届国家电力行业电力电容器标准委员会委员；四川省电机工程学会电力化学专委会委员；担任《绝缘材料》杂志青年编委；教育部学位论文评审专家；四川省经信厅专家；中国电机工程学会公司会员中心秘书、中国电机工程学会会员；IEEE DEIS会员、Nano Research、Industrial & Engineering Chemistry Research、Composite part A、Journal of Material Science、高电压技术等期刊审稿人。

人才培养

本科生课程：必修《电磁场》；研究生课程：《研究生学术规范与论文写作》、《电工材料》、《电介质物理与化学》、《电气标准与中国制造》；指导本科生许岑楷(现就读于英国曼彻斯特大学）、卿秋惋喻（保研公司）、郝予涛（保研西安交通大学）以第一作者发表SCI论文；指导研究生魏成梅获宝钢奖学金（全校6人）、国家奖学金；指导研究生严磊获国家奖学金；指导研究生陈志杰获长江电力奖学金。

教育和工作经历

2021/06-至今澳门尼斯人娱乐网站(中国)有限公司，副研究员

2018/03-2021/06，澳门尼斯人娱乐网站(中国)有限公司，助理研究员

2012/09-2017/12，西安交通大学，电气工程，博士

2010/09-2012/07，西安交通大学，高分子物理与化学，硕士

2006/09-2010/07，西安交通大学，应用化学，学士

科研项目

(1)2022/01-2024/12，国家自然科学基金，30万，在研

(2)2023/01-2024/12，四川省重点研发项目，20万，在研

(3)2022/06-2023/12，国家电网项目，90万，在研

(4)2023/01-2023/12，国家电网项目，60万，在研

(5)2023/01-2024/12，南方电网项目，28万，在研

(6) 2020/01-2021/12，中央高校基本科研业务项目，15万，结题

(7) 2020/01-2020/12，公司交叉学科创新培育项目，10万，结题

(8) 2018/11-2019/11，中国博士后科学基金面上项目，5万，结题

(9) 2018/12-2020/12，特高压国家工程实验室（广州、昆明）开放基金—重点项目，30万，结题

(10) 2020/08-2022/06，国家电网项目，80万，结题

(11) 2019/06-2021/06，国家电网项目，45.5万，结题

(12) 2019/06-2019/12，国家电网项目，20万，结题

(13) 2019/08-2019/12，企业委托项目，16.92万，结题

(14) 2018/07-2019/07，企业委托项目，20万，结题

(15) 2020/08-2021/08，中国西电集团项目，25万，结题

(16) 2020/12-2021/12，国电大渡河集团项目，41万，结题

代表性论文

(37) Lihua Zhao, Zhijie Chen, Ren J*.Synchronously improved thermal conductivity and dielectric constant for epoxy composites by introducing functionalized silicon carbide nanoparticles and boron nitride microspheres, Journal of Colloid and Interface Science, 2022, 627, 205-214.

(36)Author links open overlay panel Wang Z, Yuan J, Zhao L, Ren J*. Significant improvement of the thermal conductivity and dielectric properties of cyanoethyl cellulose films by introducing barium titanate decorated boron nitride nanosheet, Materials Letters, 2022, 323, 132588.

(35) Lihua Zhao, Chengmei Wei, Ren J*. Biomimetic nacreous composite films toward multipurpose application structured by aramid nanofibers and edge-hydroxylated boron nitride nanosheets, Industrial & Engineering Chemistry Research, 2022, 61, 8881-8894. (cover paper)

(34) Zhao L, Wu Y, Huang X, Hong G, Ren J, Ning W, et al. Research on the Temperature Rise Characteristics of Medium-Voltage Switchgear under Different Operation Conditions. IEEJ Transactions on Electrical and Electronic Engineering, 2022.

(33) Wei WF, Huang ZL, Yin GF,Yang ZF, Li XB, Zuo HZ, Deng Q, Huang GZ, Ren JW, Liao QH, Yang Y, Wu GN. Thermal shock resistance enhancement by improved interfacial bonding for carbon/aluminium composites, High Voltage, 2022, 2397-7264.

(32) Lihua Zhao, Chengmei Wei, Zihan Li, Ren J*. High-temperature dielectric film with excellent mechanical and thermally conductive properties by engineering aramid nanofiber and boron nitride nanotubes, Materials & Design, 2021, 210,110124.

(31) Haozi Zuo, Wenfu Wei, Zefeng Yang, Xiaobo Lia, Junwen Ren, Yong Xian, Qianhua Liao, Guofeng Yin , Guoqiang Gao, Guangning Wu. Performance enhancement of carbon/copper composites based on boron doping. Journal of Alloys and Compounds, 2021, 876, 160213.

(30) Lihua Zhao, Weiqing Wu, Ren J*. Mechanically strong and thermally conductive paper made from aramid nanofiber and fluorinated graphene with excellent dielectric properties, Composite interfaces, 2021, 29, 208-219.

(29) Zuo HZ, Wei WF, Yang ZF, Li XB, Xie WH, Liao QH, Xian Y, Ren JW, Gao GQ, Wu GN. Synchronously improved mechanical strength and electrical conductivity of Carbon/Copper composites by forming Fe3C interlayer at C/Cu interface, Materials Today Communications, 2021, 28, 13, 102661.

(28) Zhao LH, Chen WW, Huang XL, Ren JW, Ning WJ, Wang LJ, Zhuang HM, Wu QZ. Numerical investigation on the influence of metal particles on the characteristics of a high-current vacuum arc, Journal of Physics D-applied Physics, 2021, 54, 29.

(27) Deng Q, Wei WF, Yin GF, Xie WH, Huang ZL, Ren JW, Yang Y, Chen QC, Wu GN. The effect of thermal shock temperature difference on the structural, dynamics and mechanical properties of carbon materials characterized by ultrasonic test technology, Journal of materials science, 2021, 56, 18522-18533.

(26) Zuo HZ, Wei WF, Yang ZF, Li XB, Ren JW, Xian Y, Liao QH, Yin GF, Gao GQ, Wu GN. Performance enhancement of carbon/copper composites based on boron doping. Journal of alloys and compounds, 2021, 876.

(25) Wei WF, Li XB, Yang ZF, Zuo HZ, Huang ZL, Liao QH, Ren JW, li W. Infiltration behavior of copper melt into porous graphite and saturation improvement by WC particles doping. Composite interface, 2022, 29, 3, 294-310.

(24) Hao YT, Li QH, Pang XH, Gong BH, Wei CM, Ren JW*. Synergistic Enhanced Thermal Conductivity and Dielectric Constant of Epoxy Composites with Mesoporous Silica Coated Carbon Nanotube and Boron Nitride Nanosheet, Materials, 2021, 14 (18), 5251.

(23) Zhao L, Hong G, Wang Z, Chen W, Long W, Ren J, Wang Z, Wang X. Relationship Between Viscosity and Fine Current of Electrorheological Suspension, Toward Prediction of the Inner Structure. IEEJ Transactions on Electrical and Electronic Engineering, 2021, 16 (5), 677-686.

(22) Zhao LH, Gou HY, Yang MJ, Hong G, Bai XY, Huang XL, Ren JW, Ning WJ, Wang LJ. Numerical investigation on the influence of circuit breaker structure parameters on vacuum arc behaviors, Journal of Physics D-applied Physics, 2021, 54, 10.

(21) Xu CK, Wei CM, Li QH, Li ZH, Zhang ZX, Ren JW*. Robust Biomimetic Nacreous Aramid Nanofiber Composite Films with Ultrahigh Thermal Conductivity by Introducing Graphene Oxide and Edge-Hydroxylated Boron Nitride Nanosheet, Nanomaterials, 2021.

(20) Jia L, Jin Y, Ren J*, Zhao L, Yan D, Li Z. Highly thermally conductive liquid metal-based composites with superior thermostability for thermal management, Journal of Materials Chemistry C, 2021, 9 (8), 2904-2911.

(19) Zhao L, Liao C, Liu Y, Ren J*. A combination of aramid nanofiber and silver nanoparticle decorated boron nitride for the preparation of a composite film with superior thermally conductive performance, Composite interfaces, 2021, 14, 1-17. 

(18) Wang Z, Qiu J, Li Y, He H, Zhao L, Huang X, Ren J*. Property Failure of Silicone Rubber Caused by Silicone Grease Absorption. IEEE Transactions on Dielectrics and Electrical Insulation, 2021, 28 (1), 326-332.

(17) Wang T, Wei C, Yan L, Liao Y, Ren J. Thermally conductive, mechanically strong dielectric film made from aramid nanofiber and edge-hydroxylated boron nitride nanosheet for thermal management applications, Composite interfaces, 2020, 8, 1-14.

(16) Zhao L, Wang Z, Zhu H, Hong G, Ren J, Long W, Huang X. Study on Temperature Rise Characteristics of GIS Disconnector under Different Operating Conditions. IEEE Transactions on Power Delivery, 2020, 99.

(15) 赵莉华，张振东，张建功，黄小龙，任俊文*，运行工况波动下基于振动信号的变压器故障诊断方法，高电压技术，2020, 336 (11), 214-222.

(14) Zhao L, Yan L, Wei C, Wang Z, Jia L, Ran Q, Huang X, Ren J*. Aqueous-Phase Exfoliation and Functionalization of Boron Nitride Nanosheets Using Tannic Acid for Thermal Management Applications. Industrial & Engineering Chemistry Research, 2020, 59 (37), 16273-16282.

(13) Ren J, Li Q, Yan L, Jia L, Huang X, Zhao L, et al. Enhanced thermal conductivity of epoxy composites by introducing graphene@boron nitride nanosheets hybrid nanoparticles. Materials & Design, 2020, 191, 108663.

(12) Huang X, Zhu H, Yang M, Zhao L, Wang Z, Gou H, Ren J*. Numerical Investigation of Magnetic Field in AMF Vacuum Arc Switch With Transverse Magnetic Field From Three-Phase Structure. IEEE Transactions on Plasma Science, 2020, 48 (7), 2558-2570.

(11) Zhao L, Yan L, Wei C, Li Q, Huang X*, Wang Z, Fu M, Ren J*. Synergistic Enhanced Thermal Conductivity of Epoxy Composites with Boron Nitride Nanosheets and Microspheres. The Journal of Physical Chemistry C, 2020, 124 (23), 12723-12733.

(10) Huang X, Zhao L, Bai X, Wang Z, Ning W, Wang L, Ren J*. Study on the influence of metal particles on the characteristics of high-current vacuum arc plasma. Journal of Physics D: Applied Physics, 2020, 53 (42), 425206.

(9) Zhao L, Wang Z, Su F, Bai X, Ren J, Wang T, et al. Research on Magnetic Field Distribution between Electrodes in Vacuum Interrupter. IEEJ Transactions on Electrical and Electronic Engineering, 2020, 15 (11).

(8) Zhao L, Zhu H, Gou H, Ren J, Wang Z, Ning W, et al. Modeling and simulation of the influence of contact structure on the characteristics of high current vacuum arc plasma. Physics of Plasmas, 2020, 27 (8).

(7) Zhao L, Gou H, Yang M, Ren J, Bai X, Wang L, et al. 3D modeling and simulation of high-current vacuum arc subjected to real external transverse magnetic field. Physics of Plasmas, 2020, 27(6).

(6) 赵莉华，李彦姝，黄小龙，任俊文，王仲，多因素下硅橡胶吸收硅油/硅脂的影响规律，高电压技术，2020, 46 (8), 7.

(5) 赵莉华，余航，刘睿，张宗喜，冯运，任俊文*，热老化对植物油中绝缘纸样频域介电谱的影响，水电能源与科学，2020, 38 (3), 5.

(4) 刘睿，张宗喜，聂鸿宇，白欢，赵莉华，余航，任俊文*，矿物油与植物油对绝缘纸热老化特性的影响研究，绝缘材料，2020, 53 (6), 5.

(3) Ren J, Yu D, Feng L, Wang G, Lv G. Nanocable-structured polymer/carbon nanotube composite with low dielectric loss and high impedance. Composites Part A: Applied Science and Manufacturing, 2017, 98, 66-75.

(2) Ren J, Wang X, Ramasubramanian LN, Dong C, Cheng Y, Yu D, et al. Synthesis and properties of flexible nanocable with carbon nanotube @ polymer hierarchical structure. Nanotechnology, 2017, 28 (9), 095710.

(1) Ren J, Yu D. Effects of enhanced hydrogen bonding on the mechanical properties of poly (vinyl alcohol)/carbon nanotubes nanocomposites. Composite Interfaces, 2017, 25 (3),205-219.