近年代表性论文

已在Corrosion Science, MSEA, J. Alloy & Compound, Mater Characterization, Materials & Corrosion, Trans. Nonferrous Met Soc China等国际国内期刊发表论文100多篇。近期部分代表论文如下：

[63] Danyang Liu, Jinfeng Li*, Ruifeng Zhang, Yongcheng Lin*, Pengcheng Ma, Yonglai Chen, Xuhu Zhang. Microstructure evolution and corrosion behavior of Al-xCu-yLi-Mg alloys. Acta Metallurgica Sinica (English Letters). 已接受

[62] Yunhe Zheng, Yixian Liu, Nick Wilson, Shiqi Liu, Xiaojun Zhao, Houwen Chen*, Jinfeng Li*, Ziqiao Zheng, Laure Bourgeois, Jian-Feng Nie*. Solute segregation induced sandwich structure in Al-Cu(-Au) alloys. Acta Materialia. 2020, 184: 17-29 Doi: 10.1016/j.actamat.2019.11.011

[61] Dan-Yang Liu, Feng-Jian Sang, Jin-Feng Li*, Rui-Feng Zhang, Nick Birbilis, Zhi-Xiu Wang, Yun-Long Ma. The role of grain structure characteristics on the localised corrosion feature in the 1445 Al-Cu-Li alloy. Materials Characterization. 158 (2019) 109981. Doi: 0.1016/j.matchar.2019.109981

[60] Ruifeng Zhang, Jinfeng Li*, Qian Li*, Yuanshen Qi, Zhuoran Zeng, Yao Qiu, Xiaobo Chen, Shravan K. Kairy, Sebastian Thomas, Nick Birbilis*. Analysing the degree of sensitisation in 5xxx series aluminium alloys using artificial neural networks: A tool for alloy design. Corrosion Science. 2019, 150: 268-278

[59] Ma Yun-long, Li Jin-feng*, Sang Feng-jian, Li Hong-ying, Zheng Zi-qiao, Huang Cheng. Grain structure and tensile property variation of an Al-Li alloy sheet caused by different cold reduction and solutionization temperature. Trans. Non-ferrous Met. Soc. China. 2019, 29(8): 1569-1582

[58] Li Jin-feng, Huang Jia-lei, Dan-yang Liu*, Chen Yong-lai, Zhang Xu-hu, Ma Peng-cheng. Distribution and evolution of aging precipitates in an Al-Cu-Li alloy with high Li concentration. Trans. Non-ferrous Met. Soc. China. 2019, 29(1): 15-24

[57] MA Yun-long(马云龙), LI Jin-feng(李劲风)*, LIU Dan-yang(刘丹阳), ZHENG Zi-qiao(郑子樵). Influence of small Indium (In) addition on microstructures and tensile properties of Al-Cu-1.0Li-(Mg) alloy. 稀有金属材料与工程英文版. 2019, 48(1): 1-8.

[56] Liu Dan-yang, Wang Jie-xia, Li Jin-feng*. The microstructures evolution and mechanical properties disparity in 2070 Al-Li alloy with minor Sc addition. Trans. Nonferrous Met. Soc. China. 2018, 28(11): 2151-2161

[55] D.Y. Liu, J.F. Li*, Y.L. Ma, R.K. Gupta, N. Birbilis, R. Zhang*. A closer look at the role of Zn in the microstructure and corrosion of an Al-Cu-Li alloy. Corrosion Science. 2018, 45: 220-231

[54] 马云龙，林小红，刘丹阳，陆丁丁，李劲风*. 两种铝锂合金薄板析出相及动静态性能比较. 稀有金属. 2019, 43(7): 673-678

[53] 刘丹阳, 汪洁霞, 李劲风*, 陈永来, 张绪虎, 许秀芝, 郑子樵. Mg、Ag、Zn微合金化对T6态时效Al-Cu-Li系铝锂合金晶间腐蚀敏感性的影响.中国腐蚀与防护学报. 2018, 38(2): 183-190

[52] 汪洁霞, 刘晴, 李劲风*, 陈永来, 张绪虎, 许秀芝, 郑子樵. 时效处理对一种新型超高强Al-Cu-Li-X合金薄板的力学性能和微观组织的影响.中南大学学报(自然科学版).2018, 49(4):794-801

[51] Li Jin-feng, Huang Jia-lei, Dan-yang Liu*, Chen Yong-lai, Zhang Xu-hu, Ma Peng-cheng. Distribution and evolution of aging precipitates in an Al-Cu-Li alloy with high Li concentration. Trans. Non-ferrous Met. Soc. China. 2019, 29(1): 15-24

[50] Jia-lei Huang,Jin-feng Li*, Dan-yang Liu, Rui-feng Zhang*, Yong-lai Chen, Xu-hu Zhang, Peng-cheng Ma, Rajeev Kumar Gupta, Nick Birbilis. Correlation of intergranular corrosion behaviour with microstructure in Al-Cu-Li alloy. Corrosion Science. 2018, 139: 215-226. 10.1016/j.corsci.2018.05.011

[49] 叶志豪, 朱瑞华, 李劲风*, 陈永来, 张绪虎.一种2050铝锂合金薄板的微观组织与力学性能.稀有金属材料与工程.2018, 47(4): 1192-1198

[48] Jin-feng Li*, Yong-lai Chen, Xu-hu Zhang, Zi-qiaoZheng. Mechanical Property and Structures of Friction-Stir Weld Joint of 2195-T8 Al-Li Alloy Plate.稀有金属材料与工程(英文版). 2018, 47(3): 780-787

[47] Zhi-hao Ye, Wen-xin Cai,Jin-feng Li*, Xiang-rong Chen, Rui-feng Zhang*, Nick Birbilis, Yong-lai Chen, Xu-hu Zhang, Peng-cheng Ma. Impact of annealing prior to solution treatment on aging precipitates and intergranular corrosion behavior of Al-Cu-Li alloy 2050. Metallurgical and Materials Transactions A. 2018, 49: 2471-2486. DOI: 10.1007/s11661-018-4596-1

[46] Peng Zhuo-wei,Li Jin-feng*, Sang Feng-jian, Chen Yong-lai, Zhang Xu-hu, Zheng Zi-qiao, Pan Qin-lin. Structures and tensile properties of Sc-containing 1445 Al-Li alloy sheet. Journal of Alloys and Compounds. 2018, 747: 471-483

[45] Rui-hua Zhu, Qing Liu, Jin-feng Li*, Yong-lai Chen, Xu-hu Zhang, Zi-qiao Zheng.Flow curve correction and processing map of 2050 Al-Li alloy. Trans. Nonferrous Met. Soc.China. 2018, 28(3): 404-414

[44] Jin-feng Li, Dan-yang Liu, Hong Ning, Cheng Liu, Peng-cheng Ma, Yong-lai Chen, Xu-hu Zhang,. Experimental quantification of “hardenability” of 2195 and 2050 Al-Li alloys by using cold-rolled sheets. Materials Characterization. 2018, 137: 180-188

[43] 潘波,李睿,李劲风*,马鹏程,陈永来,张绪虎,郑子樵. Ce微合金化对一种Al-Cu-Li系高强铝锂合金薄板组织及拉伸性能的影响.中国有色金属学报. 2018, 28(1): 21-30

[42] 李劲风*, 陈永来, 张绪虎, 刘晴, 郑子樵, 姚勇, 王剑. 一种新型超高强铝锂合金板材的组织与力学性能. 稀有金属材料与工程. 2017, 46(12): 3715-3720

[41] 李劲风*, 陈永来, 张绪虎, 许秀芝, 郑子樵. 1460铝锂合金薄板力学性能与微观组织演化. 中南大学学报（自然科学版）. 2017, 48(11): 2866-2872

[40] Yun-long Ma , Jin-feng Li*. Variation of aging precipitates and mechanical strength of Al-Cu-Li alloys caused by small addition of rare earth elements. Journal of Materials Engineering and Performance. 2017, 26(9): 4329-4339. DOI: 10.1007/s11665-017-2903-4

[39] 林小红, 李劲风*, 陈永来, 张绪虎, 许秀芝, 郑子樵. 时效温度对1460铝锂合金力学性能及微观组织的影响. 稀有金属. 2017, 41(12): 1293-1298. DOI: 10.13373/j.cnki.cjrm.XY16080030

[38] 马云龙,李劲风,刘观日,刘丹阳,叶志豪,汪洁霞,郑子樵.重固溶-不同温度T8再时效2195铝锂合金的力学性能与微观组织演化.中国有色金属学报. 2017, 27(2): 234-242

[37] 李劲风*, 陈永来*, 张绪虎, 刘平礼. 非等温时效对一种铝锂合金力学性能与微观组织的影响. 稀有金属材料与工程. 2017, 46(1):183-188

[36] C. Cai, X.-Q. Liu, X. Tan, G.-D. Li, H. Wang, J.-M. Li andJ.-F. Li. A Zr- and Cr(III)-containing conversion coating on Al alloy 2024-T3 and its self-repairing behavior. Materials and Corrosion. 2017, 68(3): 338-346 DOI: 10.1002/maco.201609067

[35] Jin-feng Li*, Zhi-hao Ye, Dan-yang Liu, Yong-lai Chen, Xu-hu Zhang, Xiu-zhi Xu, Zi-qiao Zheng. Influence of pre-deformation on aging precipitation behavior of three Al-Cu-Li alloys. Acta Metallurgica Sinica (English Letters). 2017, 30(2): 133-145 DOI: 10.1007/s40195-016-0519-6

[34] 刘丹阳, 李劲风*, 郑子樵, 陈永来, 张绪虎. Er微合金化对1441铝锂合金微观组织和力学性能的影响. 稀有金属. 2017, 41(7): 725-732. [DOI] 10.13373/j.cnki.cjrm.XY16040020

[33] Qing Liu, Rui-hua Zhu, Dan-yang Liu, Yang Xu, Jin-feng Li*, Yong-lai Chen*, Xu-hu Zhang, Zi-qiao Zheng. Correlation between artificial aging and intergranular corrosion sensitivity of a new Al-Cu-Li alloy sheet. Materials and Corrosion. 2017, 68(1): 65-76. DOI: 10.1002/maco.201609090

[32]马云龙*, 黄诚, 李劲风, 刘丹阳, 叶志豪, 汪洁霞, 郑子樵. 2195铝锂合金重固溶-T8再时效的组织与力学性能. 材料热处理学报. 2016, 37(8):62-68

[31] 李劲风*, 陈永来, 张绪虎, 张健, 郑子樵. 一种新型超高强铝锂合金薄板的时效行为与微观组织. 宇航材料工艺. 2016, 46(5): 62-67

[30] 李劲风*,刘丹阳,郑子樵,陈永来,张绪虎. Er微合金化对2055铝锂合金微观组织及力学性能的影响.金属学报. 2016, 52(7): 821-830

[29]Qing Liu, Rui-hua Zhu, Jin-feng Li*, Yong-lai Chen*, Xu-hu Zhang, Long Zhang, Ziqiao zheng. Microstructural evolution of a Mg, Ag and Zn micro-alloyed Al-Cu-Li alloy during homogenization. Trans. Nonferrous Met. Soc. China. 2016, 26(3): 607-619

[28]L. L.Song, J. F. Li*, et al.Corrosion resistance and self-repairing behaviour of a Cr(III)-contained conversion coating on AA2024-T3. Corrosion Engineering, Science and Technology. 2016, 51(4): 263-271 (DOI: 10.1179/1743278215Y.0000000053)

[27]J. F. Li*, N. Birbilis, et al.Intergranularcorrosion of Zn-free and Zn micro-alloyed Al-xCu-yLi alloys. Corrosion Science.2016,105:44-57

[26]许龙, 姚希, 李劲风*, 蔡超. 2099铝锂合金晶间腐蚀行为与时效制度的相关性. 中国腐蚀与防护学报. 2014, 34(5): 419-425

[25] 李劲风*,陈永来*,张绪虎,郑子樵. Cu、Li含量对Mg、Ag、Zn复合微合金化铝锂合金力学性能及微观组织的影响.宇航材料工艺. 2015,45(2):24-28

[25] 张健,朱瑞华,李劲风*,马云龙,刘德博,郑子樵. 时效前处理对新型Al-Cu-Li-X合金力学性能和微观组织的影响.中国有色金属学报. 2015, 25(12):3300-3308

[24] Sheng XIANG, Dan-yang LIU, Rui-hua ZHU, Jin-feng LI*, Yong-lai CHEN*, Xu-hu ZHANG.Hot deformation behavior and microstructure evolution of 1460 Al-Li alloy during isothermal compression. Trans. Nonferrous Met. Soc.China. 2015, 25(12): 3855-3864

[23] Rui-hua Zhu, Qing Liu, Jin-feng Li*, Sheng Xiang, Yong-lai Chen, Xu-hu Zhang. Dynamic restoration mechanism and physically based constitutive model of 2050 Al-Li alloy during hot compression. Journal of Alloys and Compounds.2015, 650:75-85

[22]LI Jin-feng*, LIU Ping-li, CHEN Yong-lai, ZHANG Xu-hu, ZHENG Zi-qiao. Mechanical Properties and Microstructures of Mg, Ag and Zn mult-microalloyed Al–(3.2~3.8)Cu-(1.0~1.4)Li alloys. Trans. Nonferrous Met. Soc.China. 2015, 25(7): 2103?2112

[21] Jin-feng Li*, Long Xu, Chao Cai, Yong-lai Chen, Xu-hu Zhang, Zi-qiao Zheng. Mechanical property and intergranular corrosion sensitivity of Zn-free and Zn micro-alloyed Al-2.7Cu-1.7Li-0.3Mg alloys. Metallurgical and Materials Transaction A.2014, 45(12): 5736-5748

[20] F. L. Zeng, X. Tan, J. F. Li*, Z. Zhang.Corrosion inhibition of A3 steel by an imidazoline derivative in 2.0% NaCl solution. Corrosion Engineering, Science and Technology.2013,48(2): 108-115

[19] Chao-xing Li, Xing Tan, Jin-feng Li*, Chao Cai, Zi-qiao Zheng. Corrosion behavior of 1420 Al-Li alloy under MgCl2 drops in 33% relative humidity. Materials and Corrosion. 2014, 65(5): 476-484

[18] Jin-feng Li*, Xing Tan. Potential change and corrosion behavior of two Al-Mg-Si alloys with different Si content under MgCl2drops in 33% relative humidity. Materials and Corrosion.2014, 65(11): 1062-1072

[17] J. F. Li*, F. L. Zeng.Corrosion dependence of an Al-Mg-Si alloy under MgCl2 solution drop on initial concentration and humidity. Materials and Corrosion.2013, 64(9):811-820

[16] J.F. Li*,B. Maier,G.S. Frankel.Corrosion of an Al-Mg-Si alloy under MgCl2solution droplets.Corrosion Science, 2011,53: 2142–2151

[15] J. F. Li*, et al. Simulation Study on Function Mechanism of Some Precipitates in Localized Corrosion of Al Alloy. Corrosion Science. 2007, 49: 2436~2449

[14] Jin-feng Li*, et al.Study on Function Mechanism Associated with T1 andT2 Precipitates during Localized Corrosion of Al-Cu-Li alloys. Journal of Alloys and Compounds. 2008, 460: 688~693

[13] J F Li*, et al. Preparation and galvanic black anodizing of a Mg-Li alloy.Materials Science and Engineering A. 2006, 433: 233–240

[12] Li Jin-feng*,et al.Study on localized corrosion mechanism of 2′′′seriesAl alloy containing S(Al2CuMg) andq￠(Al2Cu) precipitates in 4.0% NaCl solution at pH6.1. Materials Chemistry and Physics. 2005, 91(2~3):325~329

[11] Jin-Feng Li*, et al. Effect of compressive stress aging on transformation strain and microstructure of Ni-rich TiNi alloy. Materials Science and Engineering A. 2009, 523:207~213

[10] Jin-feng Li*, et al.Application of shape memory alloy TiNi in low-thermal-expansion copper composites. Materials and Design. 2009, 30: 314~318

[9] J. F. Li*, et al. Influence of Retrogression Temperature and Time on the Mechanical Properties and Exfoliation Corrosion Behavior of Aluminium Alloy AA7150. Materials Characterization. 2009, 60:1334~1341

[8] J. F. Li*, et al. Exfoliation corrosion and electrochemical impedance spectroscopy of an Al-Li alloy in EXCO solution. Materials and Corrosion. 2007, 58(4):273~279

[7] J F Li*, et al. Study on localized corrosion mechanism of 2195 Al-Li alloy in 4.0% NaCl solution(pH6.5) using a three-electrode coupling system. Materials and Corrosion. 2005, 56(3):192~196

[6] J. F. Li*, Z. Q. Jia, C. X. Li, N. Birbilis, C. Cai. Exfoliation corrosion of 7150 Al alloy with various tempers and its electrochemical impedance spectroscopy in EXCO solution. Materials and Corrosion. 2009, 60(6):407~414

[5] J F Li*, et al. EIS during corrosion process of 8090 Al-Li alloy in EXCO solution. Acta Metallurgic Sinica(English Letters). 2004, 17(6):894~901

[4] Li Jing-feng*, et al.Electrodeposition behavior of nanocrystalline CoNiFe soft magnetic thin film. Trans Nonferrous Met Soc. China 2006, 16(3): 659-665

[3] Li Jin-feng*, et al.Corrosion behavior of 2195 and 1420 Al-Li alloys in neutral 3.5% NaCl solution under tensile stress. Trans Nonferrous Met Soc China 2006, 16(5):1171~1177

[2] Li Jin-feng*, et al.Simulation study on function mechanism of T1(Al2CuLi) in localized corrosion of Al-Cu-Li alloy. Trans Nonferrous Met SocChina. 2006, 16(6): 1268~1273

[1] Li Jin-feng*, et al.Trans. Nonferrous Met. Soc.China. Mechanical Properties, Corrosion Behaviors and Microstructures of 7075 Aluminium Alloy with Various Aging Treatments. Trans. Nonferrous Met. Soc.China. 2008, 18(4):755~762