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李晋锋

文章作者: 责任编辑:唐亮 审核人: 文章来源:
基本信息
李晋锋,男,1986年12月生,助理研究员

邮件地址:lijinfeng305@126.com

个人简历

2015年,博士毕业于清华大学材料学院;

2015.7-至今,中国工程物理研究院材料研究所;

长期从事激光3D打印工艺与性能相关研究。主持或参与国家级,省部级、院所级等各类科研项目二十余项;共发表各类学术论文30余篇,20余篇被SCI收录,申请国家发明专利5项。

主要研究方向

机器学习辅助合金设计、激光3D打印工艺、先进金属功能材料

代表性成果

[1] Amar, A.; Li, Jin-Feng Li *; Xiang, S.; Liu, X.; Zhou, Y.; Le, G.; Wang, X.; Qu, F.; Ma, S.; Dong, W.; Li, Q., Additive manufacturing of high-strength CrMnFeCoNi-based High Entropy Alloys with TiC addition. Intermetallics 2019, 109, 162-166.(SCI收录)

[2] Shuo Xiang ; Jin-Feng Li *; Hengwei Luan; Effects of Process Parameters on Microstructures and Tensile Properties of Laser Melting Deposited CrMnFeCoNi High Entropy Alloys. Materials Science & Engineering A. 2019,743 412-417. (SCI收录)

[3] Xiang, S.; Luan, H.; Li, JF*.; Liu, X.; Tian, Y.; Mao, W.; Microstructures and mechanical properties of CrMnFeCoNi high entropy alloys fabricated using laser metal deposition technique. Journal of Alloys and Compounds. 2019, 773, 387-392. (SCI收录)

[4] Li, J.F.; Wang, X.; Liu, X.; Zhao, S.f.; Yao, KF., 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 quenchingPhysica B: Physics of Condensed Matter . 2018. 528 .24–26. (SCI收录)

[5] Li, J. F.; Wang, X.; Yang, G. N.; Chen, N.; Liu, X.; Yao, K. F., Enhanced plasticity of a Fe-based bulk amorphous alloy by thin Ni coating. Materials Science & Engineering A 2015, 645, 318-322. (SCI收录)

[6] Li, J. F.; Shao, Y.; Liu, X.; Yao, K. F., Fe-based bulk amorphous alloys with high glass formation ability and high saturation magnetization. Science Bulletin 2015, 60 (3), 396-399. (SCI收录)

[7] Li, J. F.; Liu, X.; Zhao, S. F.; Ding, H. Y.; Yao, K. F., Fe-based bulk amorphous alloys with iron contents as high as 82 at%. Journal of Magnetism & Magnetic Materials 2015, 386, 107-110. (SCI收录)

[8] Li, J.F; Gong, P.; Yao, K.; Gao, J.; Li, H., Formation of bulk magnetic ternary Fe80P13C7 glassy alloy. Intermetallics 2012, 26 (4), 62-65. (SCI收录)

申请的国家发明专利:

1、一种高熵合金构件的激光立体成形方法,中国, CN201810415893.4

2、一种用于激光增材制造的超声波辅助成形装置,中国, ZL201621354756.7

3、高磁性元素含量块体及条带铁基非晶合金的制备方法,中国, CN201410079836.5

4、一种钨合金零部件的快速近净成形制备方法,中国, CN201711069299.6

5、一种非晶合金热塑性模压成形模具,中国, ZL201621040661.8

更新时间:2019-06-25

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