李晋锋，副研究员。2015年博士毕业于清华大学材料学院。近五年主持国家自然科学基金青年基金项目、四川省重点研发计划等10项科研项目。在Acta Mater.、Mater & Design.、Scripta Mater.、 J Mater Sci Technol.、Mat. Sci Eng. A-Struct等国内外材料加工领域期刊发表学术论文60篇，其中 SCI检索52篇，第一/通讯作者20篇，单篇最高引用104次，授权发明专利10项，高熵合金反应结构材料智能化设计技术入选中国工程物理研究院2022年第十八届学术年会科技创新TOP10(排名第二)。

（1）非平衡凝固理论及亚稳态材料研究：非平衡凝固理论，金属材料熔体深过冷与增材制造等快速凝固过程中形核、生长、相变研究； （2）新型反应结构材料设计研究：主要开展含能高熵合金的成分设计及其动态冲击响应特性的研究； （3）激光增材制造理论研究：围绕金属材料增材成形制造过程中热- 力- 组织多场耦合作用下的物理机理、材料增材成形制造过程多尺度全流程模拟仿真等方向开展系统的共性理论研究。

一作及通讯作者文章 [1] D. Jin, Z. Wang, J. Yuan, B. Jiang, F. Yu, J.F Li*, Q. Wang*, High-strength and energetic Al2Ti6Zr2Nb3Ta3 high entropy alloy containing a cuboidal BCC/B2 coherent microstructure, Journal of Alloys and Compounds 931 (2023). [2] C. Wu, L. Chen, W. Qiu, L. Zhou, L. Huang, A. Amar, J. Zhu, J.F Li*, Composition design to tune the mechanical behavior of a TRIP-TWIP (CrMnFeCoNi) 50 Fe50-xCrx multi-principal element alloys, Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing 861 (2022). [3] L. Huang, Y. Sun, N. Chen, H. Luan, G. Le, X. Liu, Y. Ji, Y. Lu, P.K. Liaw, X. Yang, Y. Zhou, J.F Li*, Simultaneously enhanced strength-ductility of AlCoCrFeNi2.1 eutectic high-entropy alloy via additive manufacturing, Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing 830 (2022). [4] L. Huang, R. Li, Y. Sun, D. Guan, C. Liang, C. Jiang, J. Chen, D. Wang, J.F Li*, A Solution to the Hot Cracking Problem and Anisotropic Mechanical Properties for Directed Energy Deposition FeCoNiCr Multi-Principal-Element Alloy, Metals 12(10) (2022). [5] X. Zhang, R. Li, L. Huang, A. Amar, C. Wu, G. Le, X. Liu, D. Guan, G. Yang, J.F Li*, Influence of in-situ and ex-situ precipitations on microstructure and mechanical properties of additive manufacturing CoCrFeMnNi high-entropy alloys, Vacuum 187 (2021). [6] L. Huang, Y. Sun, Y. Ji, C. Wu, G. Le, X. Liu, J.F Li*, Investigation of Microstructures and Mechanical Properties of Laser-Melting-Deposited AlCoCrFeNi2.5 High Entropy Alloy, Chinese Journal of Lasers 48(6) (2021). [7] L. Huang, Y. Sun, A. Amar, C. Wu, X. Liu, G. Le, X. Wang, J. Wu, K. Li, C. Jiang, J.F Li*, Microstructure evolution and mechanical properties of AlxCoCrFeNi high-entropy alloys by laser melting deposition, Vacuum 183 (2021). [8] Q. Wang, A. Amar, C. Jiang, H. Luan, S. Zhao, H. Zhang, G. Le, X. Liu, X. Wang, X. Yang, J.F Li*, CoCrFeNiMo0.2 high entropy alloy by laser melting deposition: Prospective material for low temperature and corrosion resistant applications, Intermetallics 119 (2020). [9] J.F Li*, H. Luan, L. Zhou, A. Amar, R. Li, L. Huang, X. Liu, G. Le, X. Wang, J. Wu, C. Jiang, Phase transformation-induced strengthening of an additively manufactured multi- principal element CrMnFeCoNi alloy, Materials & Design 195 (2020). [10] A. Abdukadir, S. Xiang, G. Le, X. Liu, Q. Li, J.F Li*, Microstructure and low temperature mechanical properties of CrMnFeCoNi high-entropy alloys deposited by laser melting, Transactions of Materials and Heat Treatment 41(3) (2020) 70-75. [11] S. Xiang, H. Luan, J. Wu, K.-F. Yao, J.F Li*, X. Liu, Y. Tian, W. Mao, H. Bai, G. Le, Q. Li, Microstructures and mechanical properties of CrMnFeCoNi high entropy alloys fabricated using laser metal deposition technique, Journal of Alloys and Compounds 773 (2019) 387-392. [12] S. Xiang, J. Li, H. Luan, A. Amar, S. Lu, K. Li, L. Zhang, X. Liu, G. Le, X. Wang, F. Qu, W. Zhang, D. Wang, Q. J.F Li*, Effects of process parameters on microstructures and tensile properties of laser melting deposited CrMnFeCoNi high entropy alloys, Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing 743 (2019) 412-417. [13] J.F Li*, S. Xiang, H. Luan, A. Amar, X. Liu, S. Lu, Y. Zeng, G. Le, X. Wang, F. Qu, C. Jiang, G. Yang, Additive manufacturing of high-strength CrMnFeCoNi high-entropy alloys-based composites with WC addition, Journal of Materials Science & Technology 35(11) (2019) 2430-2434. [14] A. Amar, J.F Li*, S. Xiang, X. Liu, Y. Zhou, G. Le, X. Wang, F. Qu, S. Ma, W. Dong, Q. Li, Additive manufacturing of high-strength CrMnFeCoNi-based High Entropy Alloys with TiC addition, Intermetallics 109 (2019) 162-166. [15] S. Xiang, L. Zhang, X. Liu, G. Le, X. Dai, Q. Li, J.F Li*, Effect of laser melting deposition process on microstructure and mechanical properties of CrMnFeCoNi high-entropy alloys, Transactions of Materials and Heat Treatment 39(10) (2018) 29-35. [16] J.F Li, X. Wang, X. Liu, S.F. Zhao, K.F Yao, Effect of fluxing treatment on the properties of Fe 66 Co 15 Mo 1 P 7.5 C 5.5 B 2 Si 3 bulk metallic glass by water quenching, Physical B 528 (2018) 24-26. [17] J.F Li, X. Wang, G.N. Yang, N. Chen, K.F.J.M.S. Yao, E. A, Enhanced plasticity of a Fe-based bulk amorphous alloy by thin Ni coating, Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing 645 (2015) 318-322. [18] J.F Li, Y. Shao, X. Liu, K.F. Yao, Fe-based bulk amorphous alloys with high glass formation ability and high saturation magnetization, Science Bulletin 60(3) (2015) 396. [19] J.F Li, X. Liu, S.F. Zhao, H.Y. Ding, K.F.J.J.o.M. Yao, M. Materials, Fe-based bulk amorphous alloys with iron contents as high as 82 at%, Journal of Magnetism & Magnetic Materials 386 (2015). [20] Q. Li, J.F Li, P. Gong, K. Yao, J. Gao, H.J.I. Li, Formation of bulk magnetic ternary Fe80P13C7 glassy alloy, Intermetallics 26 (2012) 62-65.

做科研如逆水行舟，逆水行舟用力撑，一篙松劲退千寻，此日足可惜，吾辈更应惜秒音。