性 别

女

学  位

博  士

专业技术职务

教  授

博导聘任时间

2015.07

学术团体兼职

Composites Science and Technology，Carbon，Composites Part B等期刊审稿人，山东省复合材料学会理事   

1. 学习和工作经历

2016-至今 山东大学材料学院教授

2010-2016 山东大学材料学院副教授
2007-2010 山东大学材料学院讲师
2004-2007 山东大学材料学院材料学专业博士
2001-2004 山东科技大学材料学院材料学专业硕士 

1997-2001 山东科技大学机电学院机械制造工艺与设备专业学士

2. 研究领域介绍

研究领域一：高性能碳纤维的制备及碳纤维的表面改性 

（1）研究聚丙烯腈基碳纤维的纺丝、预氧化、碳化等制备工艺，揭示纤维微观结构的遗传与演变规律及其与碳纤维力学性能的内在关联；

（2）针对不同复合材料基体体系，设计开发与之匹配的上浆剂、表面改性剂及表面改性工艺，主要包括热固性树脂体系、热塑性树脂体系、有机硅等橡胶体系；

（3）探索碳纤维表面原位生长零维、一维、二维纳米材料方法与工艺，研究界面结合机理，提高碳纤维与基体之间的界面结合强度，提升复合材料的力学性能。

研究领域二：功能型碳纤维的设计、制备与应用

（1）针对不同领域的需求，设计开发特种功能型碳纤维，主要包括：低损耗抗静电碳纤维、吸波纳米碳纤维、电磁屏蔽碳纤维、结构电池用碳纤维；

（2）研究功能型碳纤维的配套应用技术，包括纤维短切技术、涂层涂装技术、无纺布和织物技术、复合材料制备技术等；

（3）探索功能型碳纤维在智能穿戴、电磁兼容、结构电池以及吸附催化等领域的应用，促进复合材料的结构功能一体化；

（4）研究功能型碳纤维及其复合材料在高湿热、高紫外、高盐雾、高低温等环境条件下结构、性能演变规律，探索改性工艺技术，提升其环境适应性。

研究领域三：低红外辐射材料的设计、制备与应用

（1）探索碳系、金属系、半导体系、新型二维材料的红外辐射特性与组织结构、形貌、表面状态等因素的相关性规律；

（2）研究隔热、导热填料和低红外发射率填料对降低材料红外辐射的作用规律，研究材料在不同背景温度下的红外热成像以及在不同波段范围内的红外光谱发射率；

（3）设计、制备低红外辐射与雷达透波兼容，或低红外辐射与雷达吸波兼容的涂层材料和结构功能一体化复合材料。

研究领域四：电磁波吸收材料和电磁屏蔽材料的设计、制备与应用

（1）研究电磁波吸收材料的成分、物相、形貌、界面调控与电磁参数、吸收性能、屏蔽性能的相关性，揭示电磁波吸收机理和电磁屏蔽机理；

（2）设计制备轻质、宽频、吸收强的吸波剂，主要包括：Fe-N系、碳系复合吸波剂，多组元、多孔、核壳结构复合吸波剂；

（3）设计、制备结构功能一体化的电磁波吸收体和电磁屏蔽体，模拟仿真蜂窝结构、三明治、多层结构复合材料的电磁性能。

3. 取得科研成果情况

（1）部分论文

[1] Siyu Liu, Yuanjun Feng, Yanyan Wang, Shuting Zhang, Minhua Yi, Bo Zhu, Meijie Yu*, Chengguo Wang*, Mechanical and electronic property improvement of the carbon fiber/silicone composite coatings by controlling the fiber diameter and surface modification. Progress in Organic Coatings 184 (2023) 107861

[2] Siyu Liu, Meijie Yu*, Yuanjun Feng, Xuechen Liang, Shuting Zhang, Lianfeng Wu, Xianming Wang**, Chengguo Wang*, Simultaneous improvement of interfacial bonding and thermal resistance of carbonaceous fiber/silicone composite coatings modified with aniline-methyl-triethoxysilane, Progress in Organic Coatings 183 (2023) 107735

[3] Siyu Liu, Xuechen Liang, Ze Zhang, Shuting Zhang, Meijie Yu*, Chengguo Wang*, Effect of moisture on the structure and electrical properties of carbonaceous fibers, J Mater Sci: Mater Electron (2023) 34:1649

[4] Yuanjun Feng, Siyu Liu, Shuting Zhang, Xianming Wang, Minhua Yi, Meijie Yu*, Chuanjian Zhou**, Chengguo Wang*, Construction of dendritic polymers on carbon fiber surfaces to improve the interfacial bonding of carbon fiber/silicone rubber composites, Colloids and Surfaces A: Physicochemical and Engineering Aspects 676 (2023) 132108

[5] Yuexin Gao, Yanyan Wang, Siyu Liu, Sijia Zhong, Meijie Yu *, Chengguo Wang *. Preparation of paraffin wax-modified floating aluminum powder and composite coating with infrared stealth and wave-transparent function. Materials Science & Engineering B 295 (2023) 116611.

[6] Yuexin Gao, Yanyan Wang, Siyu Liu, Sijia Zhong, Meijie Yu,* Chengguo Wang*. Structural Evolution and Electrical Property of Polyacrylonitrile-Based Nano and Micro Carbon Fibers. Polymer Science, Series A, 2023, 65(1): 27–35.

[7] Yuqing Dong, Xuechen Liang, Sijia Zhong, Meijie Yu*, Chengguo Wang**, A simple method for preparing flaky FeSiAl for low-frequency electromagnetic wave absorber, Journal of Magnetism and Magnetic Materials 574 (2023) 170676

[8] Qi Zheng, Jingqi Wang, Meijie Yu**, Wen-Qiang Cao*, Huazhang Zhai,***, Mao-Sheng Cao****, Heterodimensional structure porous nanofibers embedded confining magnetic nanocrystals for electromagnetic functional material and device, Carbon 210 (2023) 118049

[9] Xuechen Liang, Siyu Liu, Sijia Zhong, Shuting Zhang, Xiangwei Meng, Ye Zhang, Meijie Yu*, Chengguo Wang*, Journal of Colloid and Interface Science 637 (2023) 123–133

[10] Xuechen Liang, Chengguo Wang*, Meijie Yu*, Siyu Liu, Ye Zhang and Sijia Zhong. Enhanced microwave absorption properties of spherical Fe4N derived from spherical Fe, J Mater Sci: Mater Electron (2023) 34:31

[11] Yanyan Wang, Meijie Yu*, Yuexin Gao, Siyu Liu, Xiaoqing Yin , Nan Pang , Chengguo Wang, Three-layer composite coatings with compatibility of low infrared emissivity and high wave transmittance. Journal of Alloys and Compounds, 943 (2023) 169038

[12]Yanjun Wang, Haiping Zhou, Yuexin Gao, Ze Zhang, Siyu Liu, Sijia Zhong, Meijie Yu * , Jianjun Liu * , Chengguo Wang *，Low-infrared-emissivity Al@SiO2/EPDM composite coating compatible with low dielectric loss and antistatic property，Infrared Physics & Technology 121 (2022) 104025

[13] Xuechen Liang, Chengguo Wang⁎ , Zhiqiang Yaoa , Ye Zhang, Siyu Liu, Jianjun Liua,b,⁎ , Meijie Yu⁎，A facile synthesis of Fe/C composite derived from Fe-metal organic frameworks: Electromagnetic wave absorption with thin thickness，Journal of Alloys and Compounds 922 (2022) 166299

[14] Sijia Zhong, Meijie Yu* , Xuechen Liang, Yuqing Dong, Jianjun Liu,*, and Chengguo Wang,* Microwave absorption performance and multiple loss mechanisms of three-dimensional porous Fe4N@Fe3O4@Fe/carbon composite，J Mater Sci (2022) 57:16649–16664

[15] Haiping Zhou, Yanjun Wang, Yuexin Gao, Ze Zhang, Siyu Liu, Yanyan Wang , Meijie Yu* , Xianming Wang* , Chengguo Wang*，Low dielectric loss and infrared emissivity coating with enhanced mechanical property by grafting modification of EPDM，Infrared Physics & Technology 125 (2022) 104296

[16]Xuechen Liang, Chengguo Wang⁎ , Meijie Yu⁎ , Zhiqiang Yao, Ye Zhang，Fe-MOFs derived porous Fe4N@carbon composites with excellent broadband electromagnetic wave absorption properties，Journal of Alloys and Compounds 910 (2022) 164844

[17] Siyu Liu, Meijie Yu*, Qi Zheng, Xuechen Liang, Shengkun Xie, Yong Xu*, Chengguo Wang*, Optimized impedance matching and enhanced microwave absorbing performance of porous flaky Fe₄N wrapped with SiO₂, Journal of Magnetism and Magnetic Materials, 536 (2021) 168119

[18] Qi Zheng, Meijie Yu*, Wen Wang, Siyu Liu, Xuechen Liang, Chengguo Wang, YouYong Dai, Yong Xu*. Porous and flake-like γ’-Fe4N@iron oxides with enhanced microwave absorption performance, Ceramics International 47 (2021) 8315–8321

[19] Yanjun Wang, Meijie Yu*, Chaohui Huang, Qi Zheng, Haiping Zhou, Ze Zhang, Shengyao Zhao*, Infrared emission characteristic and microwave loss property of aluminum doped zinc oxide nanoparticles, Ceramics International 47 (2021) 2456–2462.

[20] Haiping Zhou, Meijie Yu*, Mengna Zhu, Qi Zheng, Yanjun Wang, Ze Zhang, Yong Xu*, Difunctional composite coatings with low infrared emissivity and electrostatic dissipation property, Infrared Physics & Technology 113 (2021) 103609.

[21]Jianjie Qin, Chengguo Wang*, Yanxiang Wang, Shunsheng Su, Zhiqiang Yao, Ziming Ma, Quan Gao, Meijie Yu*, Qifen Wang, Huazhen Wei, Preparation carbon nanotube-decorated carbon fibers under low pressure for epoxy-based unidirectional hierarchical composites with enhanced interlaminar shear strength, Polymer Testing 93 (2021) 106892.

[22] Qi Zheng, Meijie Yu*, Xueping Gao, Yanjun Wang, Ze Zhang, Haiping Zhou & YouYong Dai, Microwave absorption performance of Fe@Fe4N/amorphous carbon submicro fibers: Critical role of the interface, Journal of Materials Science, 55 (2020) 16954– 6968.

[23] Qi Zheng, MeijieYu*, WenWang, YanjunWang, ZeZhang, HaipingZhou, YouyongDai, ChengguoWang, YongXu*. Enhanced microwave absorption performance of Fe/C nanofibers by adjusting the magnetic particle size using different electrospinning solvents, Ceramics International, 46 (2020) 28603-28612.

[24] Qi Zheng, Meijie Yu*, Wen Wang, Siyu Liu, Xuechen Liang, Chengguo Wang, YouYong Dai, Xueping Gao*. Hierarchically Porous Carbon/α-Fe@Fe3C Absorbers Derived from Luffa Sponge with Efficient Microwave Absorption, ChemistrySelect, 2020, 5(47):‏ 15075-15083 

[25] Zhiqiang Yao, Chengguo Wang*, Jianjie Qin, Shunsheng Su, Yanxiang Wang, Qifen Wang, Meijie Yu*, Huazhen Wei. Interfacial improvement of carbon fiber/epoxy composites using one-step method for grafting carbon nanotubes on the fibers at ultra-low temperatures. Carbon, 2020, 164, 133-142.

[26] Quan Gao, Min Jing, Shengyao Zhao, Yuxia Wang, Jianjie Qin, Meijie Yu,* Chengguo Wang*,From Microfibrillar Network to Lamellae during the Coagulation Process of Polyacrylonitrile Fiber: Visualization of Intermediate Structure Evolution, Macromolecules 2020, 53, 8663−8673

[27] Quan Gao, Min Jing, Shengyao Zhao, Yuxia Wang, Jianjie Qina, Meijie Yu∗, Chengguo Wang∗, Effect of spinning speed on microstructures and mechanical properties of polyacrylonitrile fibers and carbon fibers, Ceramics International 46 (2020) 23059–23066

[28] Quan Gao，Min Jing，Meiling Chen，Shengyao Zhao，Yuxia Wang，Jianjie Qin，Meijie Yu*， Chengguo Wang*，Force field in coagulation bath at low temperature induced microfibril evolution within PAN nascent fiber and precursor fiber. Journal of Applied Polymer Science, 2020,137, e49380.

[29] Linna Dai, Shengkun Xie, Meijie Yu*^⁎, Lijie Ci^⁎，Fabrication and electromagnetic properties of carbon-based iron nitride, Journal of Magnetism and Magnetic Materials, 2018, 466: 22-27

[30] Mengna Zhu, Meijie Yu*, Qiong Mao, and Chengguo Wang，Comparison of Structure and Electrical Properties between Carbon Nanofibers and Microfibers, ECS Journal of Solid State Science and Technology,2016, 5 (7): M78-M82

[31] Mengna Zhu, Meijie Yu*, Qiong Mao, Fazhan Li, Chengguo Wang. Synthesis and electromagnetic properties of nanodendritic γ-Fe4N, Functional Materials Letters, Vol. 9, No. 2 (2016) 1650021

[32] Xiaochen Cui, Meijie Yu*, Chengguo Wangb, Fazhan Li, and Qiong Mao, The Morphology and Crystalline Region Distribution of Polyacrylonitrile Nanofibers Prepared by Electrospinning, Polymer Science, Series A, 2016, Vol. 58, No. 3, pp. 357–367.

[33] Meijie Yu*, Yong Xu , Qiong Mao, Fazhan Li, Chengguo Wang. Electromagnetic and absorption properties of nano-sized and micro-sized Fe4N particles. Journal of Alloys and Compounds, 2016,656: 362-367.

[34] Xue Lin, Chengguo Wang, Meijie Yu*, Zhitao Lin, Yuzhen Liu. Study on the relationships of mechanical performance with the short-range and long-range structure of 500–900℃ carbonized fiber. Journal of Industrial Textiles, 2015, 45(1):33-47.

[35] 李发展, 于美杰*, 徐勇, 王成国, 高瑞, 毛琼, 崔晓晨. 碳基纳米氮化铁复合材料的制备及其吸波性能. 材料研究学报，2014，28 （11）：842-848.

[36] 林雪，王成国，于美杰*，林志涛，陈旸，韩荣桓. PAN碳化纤维制备过程中纤维的晶态结构研究. 功能材料,2013, 44 (17): 2520-2523.

[37] 林雪，王成国，于美杰*，崔晓晨，林志涛。500-1350℃碳化纤维的结构缺陷和力学性能. 材料研究学报，2013,27（5）： 483-488

[38] Meijie Yu, Yong Xu, Chengguo Wang, Bo Zhu, Yanxiang Wang, Xiuying Hu, Xue Lin. Structure and property relations between the polyacrylonitrile-based prestabilized fibers and the partially carbonized fibers. Journal of Applied Polymer Science, 2012, 124(6): 5172-5179

[39] Meijie Yu, Yong Xu, Chengguo Wang, Xiuying Hu, Bo Zhu, Kun Qiao, Hua Yuan. Heredity and difference of multiple-scale microstructures in PAN-based carbon fibers and their precursor fibers. Journal of Applied Polymer Science, 2012, 125: 3159-3166.

[40] 于美杰，徐勇，王成国，朱波，林雪，谢奔. 升温速率对聚丙烯腈纤维预氧化反应的影响及诱导期的研究. 航空材料学报，2011, 31 (3):55-59

[41] 于美杰，吴益民，朱波，王成国，林雪，沈铁伟. 聚丙烯腈纤维预氧化过程中氧化反应和环化反应的动力学研究. 中南民族大学学报, 2011, 30 (1): 29-32

[42] 于美杰，吴益民，朱波，林雪，沈铁伟. 碳纤维密封盘根耐烧蚀性能的研究. 润滑与密封. 2011, 36 (8): 11-14.

[43] Meijie Yu, Chengguo Wang, Yaqi Zhao, Ming Zhang, Weiqiang Wang. Thermal Properties of Acrylonitrile/Itaconic Acid Polymers in Oxidative and Nonoxidative Atmospheres. Journal of Applied Polymer Science. 2010, 116 (2): 1207-1212.

[44] 于美杰，王威强，王启芬，马婕，胡秀颖，王成国. 聚丙烯腈预氧丝皮芯结构的影响因素与防控措施. 功能材料, 2010, 41( 6): 1019-1022

[45] 于美杰，吴益民，朱波，王成国，孙锦龙，沈铁伟，曹岳强. 聚丙烯腈预氧化纤维组织结构的遗传与演变研究. 高科技纤维与应用. 2010, 35 (6): 23-29.

[46]Meijie Yu, Chengguo Wang, Yujun Bai, Bo Zhu, Minxia Ji, Yong Xu. Microstructural evolution in polyacrylonitrile fibers during oxidative stabilization. Journal of Polymer Science Part B: Polymer Physics, 2008, 46 (7):759-765.

[47] Mei-Jie Yu, Cheng-Guo Wang, Yun-Jun Bai, Yong Xu, Bo Zhu. Effect of oxygen uptake and aromatization on shell-core morphology during the oxidative stabilization of polyacrylonitrile fibers. Journal of Applied Polymer Science, 2008, 107: 1939-1945.

[48] Mei-Jie Yu, Yun-Jun Bai, Cheng-Guo Wang, Yong Xu, Peng-Zong Guo. A new method for the evaluation of stabilization index of polyacrylonitrile fibers. Materials Letters, 2007, 61: 2292-2294.

[49] Mei-Jie Yu, Cheng-Guo Wang, Yun-Jun Bai, Min-Xia Ji, Yong Xu. SEM and OM study on the microstructure of oxidative stabilized polyacrylonitrile fibers. Polymer Bulletin, 2007, 58: 933-940.

[50] Meijie Yu, Chengguo Wang, Yujun Bai, Yanxiang Wang, Bo Zhu. Evolution of tension during the thermal stabilization of polyacrylonitrile fibers under different parameters. Journal of Applied Polymer Science, 2006, 102: 5500-5506.

[51] Meijie Yu, Chengguo Wang, Yujun Bai, Yanxiang Wang, Yong Xu. Influence of precursor properties on the thermal stabilization of polyacrylonitrile fibers. Polymer Bulletin, 2006, 57: 757-763.

[52]Meijie Yu, Chengguo Wang, Yujun Bai, Yanxiang Wang, Qifen Wang, Huanzhang Liu. Combined effect of processing parameters on thermal stabilization of PAN fibers. Polymer Bulletin, 2006, 57: 525-533.

[53] 于美杰, 王成国, 朱波, 徐勇. 聚丙烯腈基碳纤维原丝热稳定化研究进展. 材料工程, 2006, 11: 62-66.

[54] 于美杰, 王成国, 孙宏飞, 徐勇, 朱波. WC增强镍基复合喷焊层的组织与磨粒磨损性能研究. 材料热处理学报, 2006, 27 (3): 116-120.

部分专利：

[1] 于美杰，钟思佳，王成国，梁学琛，董玉情.一种铝离子掺杂的片状氮化铁材料及其制备方法与应用. ZL 2022 1 0551121.X

[2] 于美杰，王成国，周海平，王岩君，高月欣，王妍妍. 一种低介电低红外发射率涂料及其制备方法与应用. ZL 202210380142.X

[3] 于美杰，王成国，谢胜坤，黄朝晖. 一种复合吸波剂、制备方法及其应用ZL 201710344480.7

[4] 于美杰，王成国，朱波，王贤明，宁亮，韩建军. 一种透波抗静电涂料及其制备方法与应用. ZL 201610168806. 0

[5] 于美杰，王成国，许文花，毛琼，李发展. 一种枝状氮化铁粉末及其制备方法. ZL 201410429097.8

[6] 于美杰，王成国，吕宇鹏,白玉俊,高瑞. 一种无需氨气的碳包覆氮化铁纳米粉末的制备方法. ZL201310075150.4

[7] 王成国，于美杰，朱波，张姗，马婕. 一种防静电碳基纤维及其制备方法与应用. ZL201210370218.7

[8] 王成国，王雯，于美杰，朱波，王延相，刘建军，李斌鹏. 一种碳基复合吸波材料的制备方法. ZL201110219859.8

4. 承担科研项目情况

1) Fe4N@低介电层复合吸波材料的核壳结构效应与低频吸收机制（2023.1.1—2025.12.30）

2) 特种涂层工程化研制与考核评价项目（2020-2024）

3) 短切碳纤维稳定化制备研究（2023.6-2024.12）

4) 长碳链尼龙连续生产关键技术攻关及产业化（2021-2023）

5) GFZ2021001项目（2019-2021）

6) 高铁车体用高性能碳纤维的快速化生产工艺与结构性能研究（2016.11-2019.6）

7) 637-2017-70-F-15 项目 (2013-2015)

8) 碳纳米管/碳纤维增强体在线制备技术和多尺度结构优[(二)—1] （2014-12-01- 2017-12-31）

9) 低损耗涂层材料项目（2013-2015）

10) 轻质碳基复合吸波材料项目 (2012.01-2014.12)

11) 超宽频域吸波材料项目 (2012.1-2013.12)

12) 抗静电碳纤维项目（2009.10-2011.12）

13) 聚丙烯腈基碳纤维原子径向分布函数及短程有序结构的演变 （2010.1-2012.12）

14) 碳纤维的短程和长程有序结构及与力学性能的内在关联（2009.12－2012.12）

15) 碳纤维复合导电涂层的制备技术及其抗静电性能的研究（2008.12-2011.12）

16) 聚丙烯腈基碳纤维局域结构的径向分布函数研究 （2008.1-2010.12）

5. 其他

（1）主讲课程

  工程材料及机械制造基础 （本科生课程）

  先进高分子材料及其进展（本科生课程）

  复合材料的结构与性能 （硕士研究生课程）

  材料学选论 （博士研究生课程）

（2）学生培养

学生毕业后适合从事复合材料、高分子材料的研究及研发工作，能够在高等学校、科研机构、公司、生产企业独立地从事科学研究、技术服务、产品开发和教学工作等。 

长期招收硕士、博士、博士后，每年度招生计划：硕士研究生2-3人，博士研究生1-2人，博士后1-2人。

（3）生活照

联系方式

0531-88396181

联系地址

济南市经十路17923号山东大学千佛山校区材料科学与工程学院

电子邮箱

yumeijie@sdu.edu.cn