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祁国成

职称:副教授

学历:

学位:博士

电话:010-5168 3826

邮箱:gchqi@bjtu.edu.cn

教育背景

2008-2012    北京航空航天大学    工学学士

2012-2017    北京航空航天大学    工学博士(导师:杜善义 院士)

工作经历

2017-2019      魏玛大学          结构力学研究所       Postdoc/DAAD fellow          (合作导师:Prof. Dr. -Ing Timon Rabczuk)

2019-2021      帝国理工学院    航空航天系             Research Associate             (合作导师:Prof. Emile S. Greenhalgh)                    

2021-             北京交通大学    力学系                    副教授

研究方向
  • 先进材料和结构的力学行为
招生专业
  • 力学硕士
科研项目

[1]国家自然科学基金"青年基金": 考虑碳纤维/结构电解质界面的结构储电复合材料力-电多功能协同作用机理研究, 2024-2026,主持

[2]装备预研项目:******结构设计技术,2023-2025,主持

[3]红果园国家级"四总部": 基于复合材料粘弹性细观力学的舱段变形控制工艺理论研究, 2021-2022,主持

[4]红果园省部级"企事业"(新):纤维增强酚醛复合材料结构固化工艺变形机理及模型研究,2024-2025,主持

[5]自然科学类人才基金项目: 碳纤维复合材料结构超级电容器的多功能优化与设计, 2021-2024,主持

[6]红果园(): 复合材料界面性能测试及细观力学模型化表达, 2023-2024,主持

[7]红果园(): XX复合材料旋翼桨叶结构设计与测试评价, 2023-2023,主持

[8]红果园(): 国产原材料稳定性的快速评价方法制定, 2023-2023,主持

[9]红果园(): 复合材料拉伸力学性能测试及失效模式分析, 2022-2022,主持

[10]红果园(): 复合材料界面细观力学性能测试, 2021-2022,主持

[11]国家自然科学基金重大科研仪器研制项目“部门推荐”: 基于可移动X射线成像的材料超高温内部变形场与缺陷损伤在位测试仪器, 2021-2025,参与

[12]红果园国家级"科工局": ******动力学应用研究, 2023-2025,参与

[13]红果园国家级“科技委”: ******测试与表征技术, 2023-2025,参与

[14]红果园国家级"四总部": ******介质材料的制备与应用考核, 2022-2024,参与

[15]红果园国家级"四总部": XXX热响应特性, 2021-2023,参与

[16]美空军AFRL-ELAOD项目:结构储能复合材料损伤容限,2019-2021,参与

[17]英国自然科学与工程委员会(ESPRC)项目:结构储能复合材料(Beyond structural, 2019-2021,参与

[18]欧盟Horizon 2020项目: 未来飞行器结构储能复合材料(Socerer),2019-2021,参与

[19]中德博士后科研项目(CSC-DAAD),2017-2019,主持



研究围绕碳纤维复合材料结构承载/储能一体化,复合材料界面细观力学表征,复合材料/结构/工艺仿真与多尺度力学计算等,注重纤维增强复合材料及力学在航天航空、先进制造等领域的应用。

 

指导的研究生在航天院所落实就业,指导本科生开展北京市级大创等项目。欢迎力学等相关专业的同学来组里学习!


教学工作

本科:

工程力学D、理论力学、工程力学A II、复合材料力学


研究生:

复合材料宏细观力学

论文/期刊

[1]     Nguyen Sang*, Anthony David, Katafiasz Tomas, Qi Guocheng, Razavi Seyedalireza, Senokos Evgeny, Greenhalgh Emile, Shaffer Milo, Kucernak Anthony, Linde Peter. Manufacture and characterisation of a structural supercapacitor demonstrator. Composites Science and Technology. 2024;245,110339. IF=9.11区)

[2]     Qi Guocheng*, Cui Qian*, Zhang Boming, Du Shanyi. A carbon fiber lamina electrode based on macroporous epoxy with vertical ion channels for structural battery composites. Composite Structures, 2023;304, 116425. IF=6.31区)

[3]     Xu T, An Z, Qi G, et al. A novel cost-effective and near-net-shape fabrication process for SiO2f/SiO2 composites. Journal of the European Ceramic Society 2023;43 (9), 4095-4101IF=5.72区)

[4]     Ding Yinghui, Qi Guocheng*, et al. High-performance multifunctional structural supercapacitors based on in-situ and ex-situ activated carbon coated carbon fiber electrodes. Energy & Fuels, 2022; 36(4), 2171–2178. IF=5.33区,Cover

[5]     Pernice Francesc, Qi Guocheng, Senokos Evgeny, Anthony David, Nguyen Sang, Volkova Maria, Greenhalgh Emile*, Shaffer Milo, Kucernak Anthony. Mechanical, electrochemical and multifunctional performance of a CFRP/carbon aerogel structural supercapacitor and its corresponding monofunctional equivalents, Multifunctional Materials, 2022;5,025002

[6]     Yao X, Hou X, Qi G, et al. Preparation of superhydrophobic polyimide fibrous membranes with controllable surface structure for high efficient oil-water emulsion and heavy oil separation. Journal of Environmental Chemical Engineering. 2022, 10(3), 107470. IF=3.13区)

[7]     Qi Guocheng, Nguyen Sang, Anthony David, Kucernak Anthony, Shaffer Milo, Greenhalgh Emile*. The Influence of Fabrication Parameters on the Electrochemical Performance of Multifunctional Structural Supercapacitors. Multifunctional Materials. 2021; 4: 034001.

[8]     丁颖慧, 祁国成*等.结构储电碳纤维复合材料研究进展,复合材料学报,2021, 38(1): 16-24.

[9]     Qi Guocheng, Rabczuk Timon*. Ab initio investigation of lithium adsorption on short carbon nanotubes considering effects of the tube length. Carbon. 2019;155:727-733. IF=10.92区)

[10]   Greenhalgh Emile*, Shaffer Milo, Kucernak Anthony, Anthony David, Senokos Evgeny, Nguyen Sang, Pernice Francesca, Zhang Guohui, Qi Guocheng, et al. Future challenges and industrial adoption strategies for structural supercapacitors. 22nd International Conference on Composite Materials (ICCM-22), 2019, Melbourne, Australia.

[11]   Qi Guocheng, Zhang Boming*, Du ShanyiEstimation of interfacial toughness using bilayer fiber bundle compact tension (BFBCT) specimens. Composites Science and Technology. 2018;161:1-7. IF=9.11区)

[12]   Qi Guocheng, Zhang Boming*, Du ShanyiAssessment of F-III and F-12 aramid fiber/epoxy interfacial adhesions based on fiber bundle specimens. Composites Part A: Applied Science and Manufacturing.2018;112:549-557. IF=8.71区))

[13]   Qi Guocheng, Zhang Boming*, Du Shanyi, et al. Estimation of aramid fiber/epoxy interfacial properties by fiber bundle tests and multiscale modelling considering the fiber skin/core structure. Composite Structures.2017;167:1-10. IF=6.31区)

[14]   Qi Guocheng*, Yu Yalin, Zhang Boming, et al. Estimation of carbon fiber/epoxy interfacial normal strength and interfacial shear strength by fiber bundle tests. 21st International Conference on Composite Materials (ICCM-21), 2017, Xi’an, China.

[15]   Yu Yalin, Zhang Boming*, Feng Mengjie, Qi Guocheng, et al. Multifunctional structural lithium ion batteries based on carbon fiber reinforced plastic composites. Composites Science and Technology. 2017;147:62-70. IF=9.11区)

[16]   Qi Guocheng*, Du Shanyi, Zhang Boming, et al. A new approach to assessing carbon fiber/epoxy interfacial shear strength by tensile test of 45° fiber bundle composites: Experiment, modelling and applicability. Composite Science and Technology. 2016;129:214–221. IF=9.11区)

[17]   Qi Guocheng *, Zhang Boming, Yu Yalin. Research on carbon fiber/epoxy interfacial bonding characterization of transverse fiber bundle composites fabricated by different preparation processes: Effect of fiber volume fraction. Polymer Testing. 2016;52:150-156. IF=5.11区)

[18]   Yu Yalin*, Zhang Boming, Wang Yang, Qi Guocheng, et al. Co-continuous structural electrolytes based on ionic liquid, epoxy resin and organoclay: Effects of organoclay content. Materials & Design. 2016; 104:126-133. IF=8.42区)

[19]   Qi Guocheng*, Liu Jiaxin, Yu Yalin, et al. Assessment of interfacial adhesion between carbon fiber and epoxy by transverse fiber bundle and single fiber fragmentation tests. 20th International Conference on Composite Materials (ICCM-20), 2015, Copenhagen, Denmark.

[20]   Yu Yalin*, Zhang Boming, Tang Zhanwen, Qi Guocheng. Stress transfer analysis of unidirectional composites with randomly distributed fibers using finite element method. Composites Part B: Engineering. 2015;69:278-285. IF=13.11区)

[21]   潘月秀, 于雅琳, 朱世鹏, 祁国成*等.基于三维载荷传递机制的单向复合材料纵向拉伸的多尺度模型. 玻璃钢/复合材料, 2015, (06): 5-11.

[22]   Qi Guocheng*, Du Shanyi, Zhang Boming, et al. Evaluation of carbon fiber/epoxy interfacial strength in transverse fiber bundle composite: Experiment and multiscale failure modelling. Composites Science and Technology. 2014;105:1-8. IF=9.11区)

[23]   Qi Guocheng*, Tang Zhanwen, Zhang Boming, et al. Progressive damage and failure modelling of transverse fiber bundle composite (TFBC) using multiscale analytical method. 9th Asian-Australasian Conference on Composite Materials (ACCM-9), 2014, Suzhou, China

[24]   Yu Yalin, Ye Jinrui*, Wang Yang, Zhang Boming, Qi Guocheng. A mesoscale ultrasonic attenuation finite element model of composites with random-distributed voids. Composites Science and Technology. 2013;89:44-51. IF=9.11区)

[25]   祁国成,张博明等. T800级碳纤维/环氧预浸料固化过程研究.第十四届中国科协年会11分会场:低成本、高性能复合材料发展论坛论文集,2012:6.

专著/译著
专利
软件著作权

获奖与荣誉
北京市科协青年人才托举工程2023-2025
社会兼职
《应用力学学报》青年编委、中国力学学会高级会员、中国复合材料学会高级会员