围绕我国航空航天、高速轨道交通等领域高端装备轻量化发展的重大需求,致力于高性能轻质(铝、镁)合金的开发及其塑性成形理论、新技术/新工艺/新模具等方面的研究工作。在Acta Mater, J Mater Sci Technol, Scr Mater, Corros Sci等国际重要专业学术期刊发表SCI论文30 余篇,其中以第一/通讯作者发表SCI论文17篇;获授权美国发明专利1件、中国发明专利6件。获中国有色金属学会优博、山东省优博、镁合金顶刊J Magnes Alloy综合贡献奖、日本金属学会优秀论文奖等荣誉奖励。 论文发表详见:Google Scholar、ResearchGate。 代表性科研论文: 1)J. Tang, L. Chen*, G. Zhao, et al., Experimental study on tensile deformation behaviors under room and elevated temperatures induced by microstructure inhomogeneity of ZK60 Mg with a longitudinal weld, Journal of Magnesium and Alloys 11 (2023) 4338-4356. 2)J. Tang, L. Chen*, G. Zhao, et al., Achieving three-layered Al/Mg/Al sheet via combining porthole die co-extrusion and hot forging, Journal of Magnesium and Alloys 8 (2020) 654-666. 3)J. Tang, L. Chen*, Z. Li, et al., Suppressing abnormal grain growth and switching precipitation behaviors in ZK60 Mg profile by inducing pre-tension, Journal of Materials Science & Technology 155 (2023) 89-101. 4)J. Tang, L. Chen*, G. Zhao, et al., Formation mechanism and evolution of surface coarse grains on a ZK60 Mg profile extruded by a porthole die, Journal of Materials Science & Technology 47 (2020) 88-102. 5)J. Tang*, Y. Wang, H. Fujihara, et al., Stress corrosion cracking induced by the combination of external and internal hydrogen in Al-Zn-Mg-Cu alloy, Scripta Materialia 239 (2024) 115804. 6)J. Tang*, W. Yafei*, F. Hiro, et al., Exceptional stress corrosion cracking resistance-strength synergy of Al-Zn-Mg-Cu alloys via tailored nano-sized particles, Materials Research Letters (2025) https://doi.org/10.1080/21663831.2025.2480165. 7)J. Tang, L. Chen*, Z. Li, et al., Formation of abnormal coarse grains and its effects on corrosion behaviors of solution treated ZK60 Mg alloy, Corrosion Science 180 (2021) 109201. 8)J. Tang, L. Chen*, Z. Li, et al., Microstructure characterization and corrosion behavior of hollow ZK60 Mg profile containing longitudinal welds, Corrosion Science 193 (2021) 109875. 9)J. Tang, L. Chen*, Z. Li, et al., Evolution mechanisms of charge weld during porthole die extrusion of ZK60 Mg profile, Journal of Materials Processing Technology 300 (2022) 117401. 10)J. Tang, L. Chen*, Y. Zhao, et al., Tailoring interfacial structure and achieving excellent strength-ductility synergy of Al/Mg/Al composite via porthole die co-extrusion and post-annealing, Materials Science and Engineering: A 897 (2024) 146339. 11)J. Tang, L. Chen*, G. Zhao, et al., Formation mechanism of abnormal coarse grains on weld seam of extruded ZK60 alloy and the effects on mechanical properties, Materials Science and Engineering: A 773 (2020) 138718. 12)J. Tang, L. Chen*, G. Zhao, et al., Study on Al/Mg/Al sheet fabricated by combination of porthole die co-extrusion and subsequent hot rolling, Journal of Alloys and Compounds 784 (2019) 727-738. 13)J. Tang, L. Chen*, X. Fan, et al., Co-extrusion of dissimilar AA6063/AA7075 by porthole die at various temperatures, Journal of Alloys and Compounds 764 (2018) 162-169. 14)J. Tang, L. Chen*, Y. Chen, et al., Enhanced strength-ductility synergy of Al/Zn/Al laminated composite with unique interface and multi-modal heterogeneous microstructure, Materials Characterization 207 (2024) 113535. 15)J. Tang, L. Chen*, Y. Bao, et al., Investigation on corrosion behaviors of Mg-Zn-Al-Sn-Mn alloy treated by solution and artificial aging, Journal of Central South University 30 (2023) 3197-3210. 代表性发明专利: 1)Processing technology for inhibiting weld coarse grains of magnesium alloy profiles,美国发明,US 11697868B2 2)一种用于抑制镁合金型材焊缝粗晶的加工工艺,,发明,ZL202111197877.1 3)一种碳纳米管增强多层铝基复合材料及其制备方法和应用,发明,ZL2019110614823.6 4)一种双金属管分流模挤压成形装置,发明,ZL201811636317.9 5)一种A1/Mg/Al复合板材分流模挤压成形装置及方法,发明,ZL201710906774.4 获奖情况: 1)中国有色金属学会优秀博士学位论文,2023年,第1位 2)山东省优秀博士学位论文,2023年,第1位 3)JMA期刊 (IF=17.6) Contribution Award,2022年,第1位 |