李典森 - 北京航空航天大学

个人简介

教育背景 1996.09-2000.07 天津工业大学纺织科学与工程学院纤维、织物及复合材料设计本科生 2001.09-2004.03 天津工业大学复合材料研究所三维纺织复合材料硕士研究生 2004.09-2008.07 北京航空航天大学航空科学与工程学院固体力学博士研究生 2008.09-2010.11 清华大学航天航空学院复合材料力学博士后（合作导师：方岱宁院士）工作履历 2000.07-2001.09 天津市纺织工业研究所工程师 2010.11-2011.02 新加坡国立大学材料科学与工程学院访问学者 2012.02-2012.04 香港理工大学纺织制衣系访问学者 2015.05-2016.06 加拿大英属哥伦比亚大学材料科学与工程学院公派留学 2011.03-2012.06 北京航空航天大学化学与环境学院讲师 2012.07-2015.06 北京航空航天大学化学与环境学院副教授 2015.07-2016.06 北京航空航天大学化学与环境学院副教授博士生导师 2016.07-至今北京航空航天大学化学学院研究员博士生导师 2018.05-至今北京航空航天大学化学学院准聘教授博士生导师学术兼职中国指挥与控制学会医工结合专委会理事中国复合材料学会高级会员中国力学学会高级会员 SAMPE学会高级会员材料工程、复合材料、固体力学、纺织工程、化学、机械等领域百余种期刊杂志审稿人奖励与荣誉 2015年国家优秀青年科学基金获得者 2017年科学中国人（2016）年度人物 2021年第四届中国复合材料学会青年科学家奖

研究领域

编织复合材料及力学学科带头人。长期从事交叉科学领域复合材料、力学、化学、机械及纺织工艺学的研究工作，结合实验、理论和数值技术，在宏观结构、微观/纳米结构、天然/仿生结构纤维复合材料制备、纤维增强复合材料性能表征、高性能三维纺织结构复合材料件的研制应用以及相关设备研发方面开展研究。在三维结构编织复合材料及力学表征方面取得系统的创新性成果。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Wang Shi-jun, Li Dian-sen*, Zhou Yue, Jiang Lei. Hierarchical Ti3C2Tx MXene/Ni Chain/ZnO array hybrid nanostructures on cotton fabric for durable self-cleaning and enhanced microwave absorption, ACS Nano, 2020, 14: 8634-8645. Meng Wei-jia, Han Jun, Dang Zhenzhen, Li Dian-sen*, Jiang Lei. Dual Doping of Titania for Enhanced Na Storage Performance, ACS Applied Materials Interfaces, 2021, https://doi.org/10.1021/acsami.1c10506. Du Xiang-bin, Zhu Hao, Ai Jing, Li Dian-sen*, Jiang Lei. Parameterized meso-scale modeling and experimental study on the tensile damage evolution and strength of 3D five-directional braided composites，Materials & Design，2021, 205:109702. Zuo Hong-mei, Zhu Hao, Li Dian-sen*, Lei Jiang. Study on in-plane compression properties and numerical modeling of three dimensional five-directional braided composites, Thin-Walled Structures, 2021, 168:108232. Zhou Yue, Wang Shi-jun, Li Dian-sen*, Jiang Lei. Lightweight and recoverable ANF/rGO/PI composite aerogels for broad and high-performance microwave absorption, Composites Part B: Engineering, 2021, 213: 108701. Zuo Hong-mei, Li Dian-sen*, Jiang Lei. Experimental study on compressive fatigue behavior and failure mechanism of 3D five-directional braided composites, Composites Part A: Applied Science and Manufacturing, 2020, 139: 106097. Zhu Hao, Li Dian-sen*, Han Wen-fen, Jiang Lei. Experimental and numerical study of in-plane compressive properties and failure of 3D six-directional braided composites with large braiding angle, Materials and Design, 2020, 195: 108917. Zhu Hao, Li Dian-sen*, Jiang Lei. Mesoscale progressive damage and strength analysis of three-dimensional braided composites under tension, Engineering Fracture Mechanics, 2020, 237: 107221. Huang Xing-Rong, Zhu Hao, Li Dian-sen*, Jiang Lei. Multi-scale sensitivity analysis of structural vibration behaviors of three-dimensional braided composites with respect to material properties, Mechanics of Materials, 2020, 144: 103301. Han Wen-fen, Li Dian-sen*, Jiang Lei. Mechanical properties and failure mechanisms of 3D six-directional braided composites at elevated and liquid nitrogen temperatures, Materials Letters: X, 2020, 6: 100035. Li Dian-sen*, Yang Ying, Wang Zhuo, Jiang Lei. Experimental investigation on mechanical response and failure analysis of 3D multi-axial warp knitted hybrid composites, Composite Structures, 2020, 246: 112340. Li Dian-sen*, Yang Ying, Jiang Lei. Experimental study on the fabrication, high-temperature properties and failure analysis of 3D seven-directional braided composites under compression. 2021, Composite Structures, 2021, 268:113934. Li Dian-sen*, Dang Ming-guang, Jiang Lei. Elevated temperature effect on tension fatigue behavior and failure mechanism of carbon/epoxy 3D angle-interlock woven composites. Composite Structures, 2021, 268:113897. Li Dian-sen*, Dang Ming-guang, Jiang Lei. Fatigue behavior and failure mechanisms of 3D angle-interlock woven composite at room and cryogenic temperatures under bending, Composites Communications, 2021, 23: 100559. Li Dian-sen*, Han Wen-fen, Jiang Lei. High strain rate impact effect and failure behavior of 3D six-directional braided composites, Extreme mechanics letters. 2021, 45:101291.