办公地点: 冶金楼518 电子邮件: jiangmin@ustb.edu.cn
本科生课程: 《冶金传输原理》
研究生课程: 《Clean Steelmaking Technology》(本硕贯通)
科研领域:炼钢及连铸
(1)特殊钢(合金)冶金技术工艺;
(2)洁净钢生产技术;
(3)非金属夹杂物控制与利用(氧化物冶金)技术;
(4)连铸板坯大压下技术。
社会兼职:
(1)中国金属学会对外交流工作委员会委员;
(2)中国金属学会炼钢分会副秘书长;
(3)中国金属学会中韩双边先进钢铁材料交流,中方召集人、主席;
(4)《Metallurgical and Materials Transactions B》key-reader、《炼钢》编委;
(5)《American Ceramic Society》、《Metallurgical Materials Transactions A》、《Metallurgical Materials Transactions A》、《Metallurgical Materials Transactions B》、《钢铁》等期刊审稿专家。
简历:
【教育与工作】
(1)1999-2003,北京科技大学,冶金工程,学士
(2)2003-2009,北京科技大学,钢铁冶金,博士
(3)2009-2012,北京科技大学、韩国汉阳大学博士后,材料科学与工程博士后
(4)2012-2016,北京科技大学,冶金与生态工程学院钢铁冶金系,讲师、支部书记
(5)2016-2023,北京科技大学,冶金与生态工程学院钢铁冶金系,副教授、支部书记
(6)2022-2023,北京科技大学,科技成果转化研究院,副院长
(7)2023-至今,北京科技大学,冶金与生态工程学院,教授
【主要学术成就】
长期从事钢的洁净化、非金属夹杂物控制、特殊钢冶金技术工艺工作,与国内大型钢铁联合企业开展了成功的产学研合作,相继实现250km/h及350km/h高铁车轴、世界最大单轴载重重载货运列车车轴、切割钢丝、高强度桥梁悬索等系列关键“卡脖子”特殊钢材的国产化,成果得到国内外同行认可,获省部级奖励多项,在国内外重要钢铁冶金期刊发表学术论文近百篇。
代表性论著:
[1] Min Jiang*, Ruigang Wang, Jia Guo and Xinhua Wang. Optimal Control of Inclusions to Prevent “Sand-Hole” Surface Defects in Deep Cold-Drawn Battery Cups for Electrical Vehicles. ISIJ International, 2023, 63(6): 1025-1035.(唯一第一作者、唯一通讯作者、SCI检索)
[2] Huajun Zhong, Min Jiang*, Zhangyin Wang, Xingang Zhen, Heming Zhao, Tinggang Li and Xinhua Wang. Formation and Evolution of Inclusions in AH36 Steel During LF–RH–CC Process: The Influences of Ca-Treatment, Reoxidation and Solidification. Metallurgical and Materials Transactions. B, 2023, 54B(2): 593-601.(唯一通讯作者,SCI检索)
[3] 钟华军, 姜敏, 王章印, 刘帅, 姜金星, 王新华. X80管线钢精炼过程夹杂物形成与演变. 工程科学学报, 2023, 45(1): 98-106.(唯一通讯作者,EI检索)
[4] Min Jiang*, Tong Yao, Enjiao Yang and Xinhua Wang. Decreasing Central Porosities in a Continuous Casting Thick Slab by Heavy Mechanical Reduction Near the Solidification End. Metallurgical and Materials Transactions B, 2022, 53B(5): 3322-3333.(唯一第一作者、唯一通讯作者,SCI检索)
[5] Huajun Zhong, Min Jiang*, Kanghao Wang, Xinhua Wang, Shuai Liu and Jinxing Jiang. Formation and evolution of non-metallic inclusions in X70MS pipeline steel during LF-RH-CC process. Metallurgical Research and Technology, 2022, 119(522): 1-13.(唯一通讯作者,SCI检索)
[6] Pei Zhang, Wanyuan Gui, Min Jiang* and Benli Luan. Influences of High-Basicity High-Alumina Refining Slags on the Cleanliness and Control of Non-metallic Inclusions in Inconel 625 Superalloy. Metallurgical and Materials Transactions A, 2022, 53A(3): 2259-2269 .(通讯作者,SCI检索)
[7] Min Jiang*, K.L. Li, Ruigang Wang, Enjiao Yang and Xinhua Wang. Cleanliness and Control of Inclusions in Al-Deoxidized Bearing Steel Refined by Basic Slags during LF-VD-Ar Bubbling. ISIJ International, 2022, 62(1), pp. 124-132. (唯一第一作者、唯一通讯作者,SCI检索)
[8] Min Jiang*, Jichen. Liu, Kailun Li, Ruigang Wang and Xinhua Wang. Formation Mechanism of Large CaO-SiO2-Al2O3 Inclusions in Si-Deoxidized Spring Steel Refined by Low Basicity Slag. Metallurgical and Materials Transactions B, 2021, 52(4), pp. 1950-1954.(唯一第一作者、唯一通讯作者,SCI检索)
[9] Min Jiang*, E.J. Yang, Zewang Hou and Xinhua Wang. Decreasing Porosities in Continuous Casting Thick Slab by Soft Reduction Technology. Metallurgical and Materials Transactions B, 2021, 52B(4), pp. 2753-2759.(唯一第一作者、唯一通讯作者,SCI检索)
[10] Zewang Hou, Min Jiang*, Enjiao Yang, Shengya Gao and Xinhua Wang. Inclusion Characterization in Aluminum-Deoxidized Special Steel with Certain Sulfur Content Under Combined Influences of Slag Refining, Calcium Treatment, and Reoxidation. Metallurgical and Materials Transactions B, 2018, 49B(6): 3056-3066.(唯一通讯作者,SCI检索)