还献华  

所在单位:电气工程系

性别:男

在职信息:在职

   
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个人简介

       

还献华,工学博士,硕士生导师,从事电网工程复合材料研究。 


研究方向主要包括:(1)特高压用关键环氧绝缘材料研究,(2)电网工程复合材料回收再利用研究,(3)面向绿色低碳型电网的先进复合材料研究。

担任中科院一区SCI期刊Composites Part B等学术期刊审稿人。 


正在承担或已完成的科研项目包括: 

1)    科技部国家重点研发计划课题《高降解率环氧树脂绝缘材料批量制备及环保型固态绝缘变压器研制》 

2)    国家自然科学基金青年基金项目《结构-吸波一体化碳纤维复合材料跨尺度界面设计及异质界面电荷运动研究》 

3)    南方电网科学研究院科技项目《高压直流固体绝缘高阻化材料改性方法研究及材料性能分析》 

4)    国家电网公司重点课题《基于数字孪生的特高压直流输电系统能效计量与降损技术研究》 

5)    美国波音公司国际合作课题《碳纤维复合材料的高效回收再利用技术》 


所在团队高电压与绝缘技术研究所与国家电网公司、南方电网科学研究院、阳光电源有限公司、怀柔国家实验室、清华大学、西安交通大学等保持长期交流合作,研究经费充足,支持学生参与国内外交流学习。

 本人鼓励学生开展交叉学科前沿研究,管理模式自由,对有深造计划的学生愿意亲自指导论文规划与撰写,欢迎有意愿从事高电压与绝缘技术的同学加入。


 联系方式:邮箱huanxianhua@hfut.edu.cn 电话18611622498 


代表性学术论文: 

1. Li Y, Li H, Dong J, Chen Z, Zhao J, Huan X*, et al. Revisiting the sequential evolution of sizing agents in CFRP manufacturing to guide cross-scale synergistic optimization of interphase 

gradient and infiltration[J]. Composites Part B: Engineering, 2024, 111825. 

2. Du B, Zhang G, Huan X*, et al. Electrostatically self-assembled Fe3O4@ SiO2/MXene 3D interlayered structure improves Ku-band microwave absorption efficiency of epoxy-based 

nanocomposites[J]. Composites Part A: Applied Science and Manufacturing, 2024, 177: 107956. 

3. Huan X, Li H, Song Y, et al. Charge Dynamics Engineering Sparks Hetero‐Interfacial Polarization for an Ultra-Efficient Microwave Absorber with Mechanical Robustness[J]. 

Small, 2023: 2306104. 

4. Wu T, Huan X, Zhang H, et al. The orientation and inhomogeneous distribution of carbon nanofibers and distinctive internal structure in polymer composites induced by 3D-printing

 enabling electromagnetic shielding regulation[J]. Journal of Colloid and Interface Science, 2023, 638: 392-402. 

5. Liu C, Li H, Huan X, et al. Confining Fluorescence Detection for Distinguishable Visualization of Multivariate Nanoparticles: Implications for Design and Controllable Preparation of 

Nanocomposites[J]. ACS Applied Nano Materials, 2023, 6(7): 5233-5241. 

6. Huan X, Wang H, Deng W, et al. Integrating Multi-Heterointerfaces in a 1D@ 2D@ 1D Hierarchical Structure via Autocatalytic Pyrolysis for Ultra-Efficient Microwave Absorption 

Performance[J]. Small, 2022, 18(13): 2105411. (ESI高被引) 

7. Wu T, Huan X, Jia X, et al. 3D printing nanocomposites with enhanced mechanical property and excellent electromagnetic wave absorption capability via the introduction of ZIF-

derivative modified carbon fibers[J]. Composites Part B: Engineering, 2022, 233: 109658. 

8. Huan X1, Wu T1, Yan J, et al. Phosphoric acid derived efficient reclaimation of carbon fibre for re-manufacturing high performance epoxy composites reinforced by highly-aligned 

mat with optimized layup[J]. Composites Part B: Engineering, 2021, 211: 108656. 

9. Liu C, Meng L, Huan X, et al. In situ characterization on macroscale 3D spatial dispersion of MWCNTs in matrix and interfacial phases of quartz fibers/epoxy composites via fluorescence 

imaging[J]. Journal of Materials Science, 2021, 56: 16399-16421. 

10. Huan X, Shi K, Yan J, et al. High performance epoxy composites prepared using recycled short carbon fiber with enhanced dispersibility and interfacial bonding through polydopamine 

surface-modification[J]. Composites Part B: Engineering, 2020, 193: 107987. 

11. Fu P1, Huan X1, Luo J, et al. Magnetically aligned Fe3O4 nanowires-reduced graphene oxide for gas barrier, microwave absorption, and EMI shielding[J]. ACS Applied Nano Materials, 

2020, 3(9): 9340-9355. 

12. Shi K, Luo J, Huan X, et al. Ionic liquid-graphene oxide for strengthening microwave curing epoxy composites[J]. ACS Applied Nano Materials, 2020, 3(12): 11955-11969.

教育经历

[1]   2016.9-2022.6

北京化工大学 博士学位  |  研究生(博士)毕业

[2]   2012.9-2016.7

北京化工大学 学士学位  |  本科(学士)

工作经历

[1]   2022.9-至今

合肥工业大学