Professor and doctoral supervisor of Beijing Institute of Technology, mainly engaged in the teaching and research of polymer materials, energetic materials and high-performance solid propellants, mainly taught the undergraduate course "Fundamentals of Materials Science" and the postgraduate course "Physical and Chemical Properties of Energetic Materials". Member of an expert group of the Equipment Development Department of the Military Commission, the Armaments Department of the Army, the National Science, Technology and Industry Bureau of National Defense, member of the National Insulation Material Standardization Technical Committee, the young editorial board of the journal Energetic Materials, member of the Chinese Ordnance Society; Presided over more than 10 national and provincial national defense scientific research projects such as Junkou 163, major projects of Science and Industry Bureau, and the research results have been applied in multiple types of equipment, winning 1 second prize of National Science and Technology Progress, 2 first prize of National Defense science and technology Progress, 1 second prize of China Petroleum and Chemical Industry Federation Science and Technology Progress, and 1 third prize of science and technology progress. He won the 22nd MAO Yisheng Beijing Youth Science and Technology Award and the 15th China Ornithological Society Youth Science and Technology Award. More than 12 invention patents have been authorized, and more than 30 SCI and EI papers have been published.

He is mainly engaged in the research of synthesis and application of functional polymer materials, formulation design and performance control of high-performance solid propellants, additive manufacturing of polymer materials and energetic materials.

In March 2007, he graduated from the School of Materials, Beijing Institute of Technology, and obtained the Doctor degree of engineering

April 2007 to present, School of Materials, Beijing Institute of Technology

[1] Min Xia*, Yanjie Zhang, Qing Na, etc.. Preparation and characterization of self-healing furan-terminated polybutadiene (FTPB) based on Diels–Alder reaction. RSC Advances, 2021, 11, 32369
[2] Xun Li, Min Xia*, Di Qiu, etc.. Fabrication and Properties of Modified Poly(butylene terephthalate) with Two Step Chain Extension. Macromolecular Materials Engineering, 2021, 306, 2000638
[3] Yan-Jie Zhang, Min Xia*, Wei Yang, etc.. The Latest Research Progress of New Self-Repairing Energetic Composites. Chinese Journal Chemistry, 2020, 38, 1807-1816
[4] Xia M*, Yao QF, Yang HL, et.. Preparation of Bi2O3/Al core-shell energetic composite by two-step ball milling method and its application in solid propellant. Materials, 2019, 12, 11, 1879
[5] Min Xia*; Huilian Yang; Jian Ling; Qifa Yao; Guoping Li; Yunjun Luo. The mechanical behaviors of epoxy-terminated hyperbranched polyester (E-HBP) as toughener in different epoxy resins, Advanced Composites and Hybrid Materials, 2018,3
[6] Liang, CY ; Li, J ; Xia, M *; Li, GP ; Luo, YJ. Performance and Kinetics Study of Self-Repairing Hydroxyl-Terminated Polybutadiene Binders Based on the Diels-Alder Reaction. Polymers, 2017, 9, 6: 200
[7] 姚启发, 夏敏*, 等. 新型氟碳粘合剂的制备及性能. 材料导报, 2020, 34, 5: 10187-10197
[8] 夏敏*, 张艳杰, 李霄羽, 等. 自修复固体推进剂研究进展. 火炸药学报, 2019, 42, 6: 531-539