中文
  • 李劲风
  • Professor
  • 副院长
  • School of Materials science and Engineering
 

Work Experience

  • 2009.72010.7

    俄亥俄州立大学 (The Ohio State University)      访问学者

  • 2019.1Now

    中南大学      材料科学与工程学院    副院长    历任

 

Personal Information

个人简介

李劲风,男,1971年出生,博士,教授,博士生导师。中国腐蚀电化学与测试方法专业委员会委员,《材料研究与应用》编委,《宇航材料工艺》编委,中国有色金属学会材料科学与工程学术委员会委员。

长期致力于新型铝合金及铝锂合金的基础理论研究以及金属材料的腐蚀与防护研究。先后主持并承担了国家自然科学基金、国家留学回国基金、国家级项目、航天部门等项目。已在Corrosion Science、Materials Science & Engineering A、Metallurgical and Materials Transactions A、Journal of Alloys and Compounds、Materials Characterization、Trans Non-ferrous Met Soc China等国内外知名学术刊物及国际学术会议发表学术论文180多篇。(部分发表第一作者及通讯作者论文见“论文成果”)




人才培养情况

毕业博士:刘丹阳, 宁 红,陆丁丁

在读博士生:邓三喜,刘振振,刘添乐,曾广俊,向辉,吴健,李伟,李卓锐,赵玉园,郭一鸣

毕业硕士研究生:任文达(2004级);陈文敬(2005级);彭卓玮(2006级);李朝兴、贾志强(2007级);曾锋利(2009级);谭星、唐娟(2010级);刘平礼、许龙、杨珂(2011级);姚希、张健、宋亮亮(2012级);朱瑞华、刘晴、向胜(2013级);叶志豪、汪洁霞、潘波(2014级);陆丁丁、黄嘉蕾、林小红(2015级);蔡文鑫、李睿、章润喆、刘晨(2016级);刘振振、刘湘伟、刘添乐(2017级);向正武、潘登、冯小琼(2018级);曾广俊、郭幼节、杨春燕(2019级);向辉、黄洋、王贵(2020级);邹智涛、蔡旭峰、李恒仕(2021级)

在读硕士研究生

       2022级 蔡志民,罗思

       2023级:孙涵远,熊晨臣

       2024级:刘雅琴,刘展旭,彭天禹



科学研究

科研方向:

(1)新型高性能铝锂合金成分设计(航空航天用新型高强高韧铝锂合金);

(2)铝合金及铝锂合金微合金化、微观组织与性能;

(3)金属材料的腐蚀与防护;

(4)新型2XXX系及7XXX系铝合金微观组织与性能。

近年主持的主要科研项目:

(1)XXXXXX大规格铝锂合金铸锭研制,纵向(在研)

(2)国家重点研发项目-高性能铝合金高效制备与加工关键技术研究 -课题4负责人(在研)

(3)XXXX铝锂合金板材、锻件研制,纵向(结题);

(4)XXX MPa级铝锂合金研究,纵向(在研)

(5)XXXX铝锂合金挤压型材研究,纵向(结题);

(6)超高强铝锂合金研制,纵向(结题);

(7)600 MPa级铝锂合金研制,纵向(结题);

(8)XXXX铝锂合金设计XXX值研究,XX运载火箭项目(横向)(结题);

(9)XX铝锂合金表面处理技术研究,XX运载火箭项目(横向)(结题);

(10)XXXX、XXXX铝锂合金研制,XX运载火箭选材项目,横向(结题);

(11)2195铝锂合金热处理制度及机理研究,横向(结题)。


发表学术论文

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180多篇。部分代表论文如下:

[104] San-xi DENG, Jin-feng LI, Li WANG, Yue-yan CHEN, Zheng-wu XIANG, Peng-cheng MA, Yong-lai CHEN, Dan-yang LIU*. Strengthening mechanism of T8-aged Al-Cu-Li alloy with increased pre-deformation. Transactions of Nonferrous Metals Society of China, 2024, 34(10): 3151-3169.

[103] Guang-jun Zeng, Hao-ran Li, Ben Lin, Peng-cheng Ma, Xu-feng Cai, San-xi Deng, Hui Xiang, Jin-feng Li*, Guo-fu Xu*, Dan-yang Liu. Influence of grain structure and precipitates on fatigue crack propagation behaviors of Al-xCu-1.2Li-X alloys. Journal of Alloys and Ccompounds,2024, 1006: 176309.    Doi: 10.1016/j.jallcom.2024.176309

[102] Heng-shi Li, Si Luo, Hui Xiang, Zhen-zhen Liu, Yong Yao, Jin-feng Li*, Hui-jin Tao*, Rui-feng Zhang, Dan-yang Liu. The Role of Lithium in Hydrogen Trapping and Embrittlement of Al-Cu-Li Alloys: Experimental and DFT Calculations. Journal of Alloys and Compounds, 2024, 988: 174289.

[101] Hao-ran Li, Feng-jian Sang, Zi-qiao Zheng, Yao Li, Lei Tang, Guo-fu Xu*, Jin-feng Li*. Microstructure, fatigue crack growth rate and low-cycle fatigue behavior of an Al-Li alloy sheet with different aging. Materials Characterization. 2024, 209: 113758.

[100] San-xi Deng, Zhen-zhen Liu, Guang-jun Zeng, Hui Xiang, Peng-cheng Ma, Jia-ming Yin, Li Kang, Si-han Wen, Jin-feng Li*, Dan-yang Liu*. The precipitation evolution and mechanical properties of an Al-Cu-Li-Mg alloy during natural aging. Journal of Materials Science and Technology. 2024, 192: 42-53.  Doi: 10.1016/j.jmst.2023.12.050

[99] Xu-feng Cai, Guang-jun Zeng, Tian-le Liu, Hui Xiang, Zhi-min Cai, Peng-cheng Ma, Jia-ming Yin, Li Kang, Si-han Wen, Si-ping Zhang, Jin-feng Li*. Influence of solution heating rate on grain structures and fatigue crack propagation behaviors of an aviation Al-Li alloy sheet. International Journal of Fatigue. 2024, 180:108078. Doi: 10.1016/j.ijfatigue.2023.108078.

[98] Zhen-zhen Liu, San-xi Deng, Mao Rao, Ji-rong Que, Jin-feng Li*, Dan-yang Liu*. Effect of grain thickness and T1 precipitate on the strength anisotropy of Al-4.0Cu-1.0Li-0.4Mg-0.4Ag-xZr Alloys under different heat-treatment. Journal of Alloys and Compounds. 2023, 968: 172105.

[97] Guang-jun Zeng, Hao-ran Li, San-xi Deng, Peng Cheng Ma, Yong-lai Chen, Zhen-zhen Liu, Jin-feng Li*, Dan-yang Liu, Guo-fu Xu*. Detailed investigation on microstructure and strengthening contribution of Al-xCu-1.3Li-X alloys. Materials Characterization. 2023, 205: 113278. 

[96] San-xi Deng, Jin-feng Li*, Hong Ning, Ding-ding Lu, Guang-jun Zeng, Zhen-zhen Liu, Hui Xiang, Ji-rong Que, Dan-yang Liu*. Effect of Zr addition on the microstructure evolution and mechanical properties of extruded Al-Cu-Li-Mn alloys. Materials Characterization. 2023, 202: 113011.

[95] Xiang Hui, Liu Ping-li, Huang Yang, Liu Zhi-hao, Deng San-xi, Liu Tian-le, Li Jin-feng*, Liu Dan-yang. Effects of the filler wire composition on the structures and mechanical performance of 2195 Al-Li alloy TIG joints. Materials Characterization, 2023, 198: 112748.

[94] Yang Huang, Ping-li Liu, Hui Xiang, San-xi Deng, You-jie Guo, Jin-feng Li*. Mechanical properties, corrosion and microstructure distribution of a 2195-T8 Al-Li alloy TIG welded joint. Journal of Manufacturing Processes. 2023, 90 (3): 151-165.

[93] WANG Gui, LI Jin-feng*, LU Ding-ding, ZENG Guang-jun, GUO You-jie. Effect of aging precipitate on ductility anisotropy and low cycle fatigue behavior of AA2195 Al-Li alloy. Metals and Materials International,2023, 29: 2166–2181.Doi: 10.1007/s12540-022-01365-8.

[92] LU Ding-ding, Lin Ben, Liu Tian-le, Deng San-xi, GUO You-jie, LI Jin-feng*, Liu Dan-yang*. Effect of grain structure on fatigue crack propagation behavior of Al-Cu-Li alloys. Journal of Materials Science and Technology, 2023, 148: 75-89.

[91] Liu Tian-le, Li Hao-ran, Ma Yun-long, Li Jin-feng*, Liu Dan-yang*, Lu Ding-ding, Guo You-jie. Investigation of anisotropy and structure variation of spray-formed 2195 Al-Li alloy via final temperature-controlled rolling and cold rolling. Journal of Alloys and Compounds. 2023, 937: 168414.

[90] 李劲风, 李昊然, 王正安.铝锂合金组织-性能相关性及新型铝锂合金设计[J].中国材料进展, 2022, 41(10): 796-807. (特约稿件)

[89] Ding-ding Lu, Hong Ning, San-xi Deng, You-jie Guo, Hui Xiang, Jin-feng Li *, Dan-yang Liu *. Influence of microstructure on fatigue crack propagation behaviors of Al-xCu-1.5Li-X alloys. International Journal of Fatigue. 2023, 167: 107363. 

[88] LU Ding-ding, LI Jin-feng*, GUO You-jie, MA Peng-cheng, CHEN Yong-lai, ZHANG Xu-hu, ZHANG Kai, ZHANG Rui-feng. Hot processing map and dynamic precipitation behavior of 1460 Al-Li alloy during hot deformation.  Metals and Materials International. Doi: 10.1007/s12540-022-01319-0.

[87] Hong Ning, Yue Du, Jin-feng Li*, Yong-lai Chen, Xu-hu Zhang, Wen You, Yong-lin Guo. Influence of Cu content on the hardenability of Al-xCu-1.1Li alloys. Materials Characterization. 2022, 194: 112407.

[86] Guang-jun Zeng, Hong Ning, San-xi Deng, Jin-feng Li*, Yong Yao, You-jie Guo, Ding-ding Lu, Yu-zhuo Li, Zhi-hao Liu, Peng-cheng Ma, Rui-feng Zhang*. Quantification of the effect of increased pre-deformation on microstructure and mechanical properties of 2A55 Al-Li Alloy. Advanced Engineering Materials. DOI: 10.1002/adem.202200033.

[85] You-jie Guo, Jin-feng Li*, Ding-ding Lu, Hong Ning, Wen You, Yong-lai Chen, Peng-cheng Ma, Xu-hu Zhang, Zhuo-ran Zeng, Rui-feng Zhang*. Effects of dynamic precipitation and processing parameters on dynamic recrystallization behavior of 2195 Al-Cu-Li alloy during hot compression. Journal of Materials Engineering and Performance, 2022, 31: 2743–2760. Doi: 10.1007/s11665-021-06390-z

[84] LU Ding-ding, WANG Gui, LI Jin-feng*, DENG San-xi, HUANG Yang, XIANG Hui, YAO Yong, MA Peng-cheng, CHEN Yong-lai, ZHANG Xu-hu. Effect of grain structure and precipitate on tensile properties and low-cycle fatigue behaviors of 2A55 Al-Cu-Li alloy. International Journal of Fatigue. 2022, 159: 106834

[83] Ding-ding Lu, Jin-feng Li*, You-jie Guo, Gui Wang, Rong Wu, Peng-cheng Ma, Yong-lai Chen, Xu-hu Zhang, Rui-feng Zhang. T1 precipitate band and particle stimulated nucleation in 2195 Al-Cu-Li alloy during hot deformation.  Journal of Alloys and Compounds. 909 (2022) 164716.

[82] Chunyan Yang, Yunlong Ma, Xiaoqiong Feng, Hong Ning, Shiying Zhang, Jinfeng Li*, Changsheng An*. Long-cycling and high-rate electrochemical performance of expanded graphite cathode materials with a two-stage aluminum storage mechanism. Sustainable Energy & Fuels. 2021, 5(22): 5833-5842.

[81] You-jie Guo, Jin-feng Li, Ding-ding Lu, San-xi Deng, Guang-jun Zeng, Yun-long Ma, Wen You, Yong-lai Chen, Xu-hu Zhang, Rui-feng Zhang. Charaterization of Al3Zr precipitation via double-step homogenization and recrystallization behavior after subsequent deformation in 2195 Al-Li alloy. Materials Characterization. 182 (2021) 111549.

[80] 李劲风, 陈永来, 马云龙, 张绪虎. 国内铝锂合金基础研究及应用技术开发. 宇航材料工艺. 2021, 51(4): 37-47.

[79] LU Ding-ding, NING Hong, DU Yue, LI Jin-feng*, LIU Dan-yang, GUO You-jie, CHEN Yong-lai, ZHANG Xu-hu, YOU Wen, ZHANG Kai, ZHANG Rui-feng*.  Detailed investigation of quench sensitivity of 2050 Al-Li alloy by interrupted quenching method and novel end quenching method. Journal of Alloys and Compounds. 888 (2021) 161450

[78] Ding-ding LU, Jin-feng Li, Hong NING, Peng-cheng MA, Yong-lai CHEN, Xu-hu ZHANG, Kai Zhang, Jian-mei Li, Rui-feng ZHANG*. Effects of microstructure on tensile properties of AA2050-T84 Al−Li alloy.  Trans. Nonferrous Met. Soc. China. 2021, 31(5): 1189-1204.

[77] 章润喆, 马云龙, 刘丹阳, 宁红, 李劲风*, 蔡超. 2195铝锂合金力学性能和组织与冷热变形过程的相关性. 稀有金属. 2021, 45(2): 129~136.

[76] Xiaoqiong Feng, Jianmei Li, Yunlong Ma, Chunyan Yang, Shiying Zhang, Jinfeng Li*, Changsheng An. Construction of Interlayer-Expanded MoSe2-Nitrogen-Doped Graphene Heterojunctions for Ultra-Long-Cycling Rechargeable Aluminum Storage. Applied Energy Materials. 2021, 4(2): 1575-1582.

[75] Dan-yang Liu, Jin-feng Li*, Chen Liu, Yun-long Ma, Yue Du, Yong-lai Chen, Xu-hu Zhang, Wen You, Rui-feng Zhang*. Quench sensitivity and microstructure evolution of the 2060 Al-Cu-Li alloy with a low Mg content. Materials Characterization. 177 (2021) 111156.

[74] 李劲风*,宁红,刘丹阳,郑子樵. Al-Cu-Li系铝锂合金的合金化与微合金化. 中国有色金属学报. 2021, 31(2): 258-279.

[73] Zhen-zhen Liu, Jin-feng Li, Dan-yang Liu*, Yun-long Ma, Yue Du, Yong-lai Chen, Xu-hu Zhang, Rui-feng Zhang. Sluggish precipitation strengthening in Al-Cu-Li alloy with a high concentration of Mg. Journal of Materials Research and Technology. 2021, 11: 1806-1815.

[72] 刘添乐, 马云龙,黄嘉蕾, 李劲风*, 陈永来,张绪虎. 新型超高强铝锂合金厚板厚度方向组织及性能的不均匀性. 稀有金属. 2020, 44(8): 785-791.

[71] Hong Ning, Jin-feng Li*, Peng-cheng Ma, Yong-lai Chen, Xu-hu Zhang, Kai Zhang, Rui-feng Zhang*. Evolution of aging precipitates in an Al-Li alloy with 1.5 wt.% Li concentration. VACCUM, 182 (2020) 109677.

[70] Dan-yang Liu*, Jin-feng Li*, Tian-le Liu, Yun-long Ma, Hideaki Iwaoka, Shoichi Hirosawa*, Kai Zhang, Rui-feng Zhang. Microstructure Evolution and Mechanical Properties of Al-Cu-Li Alloys with Different Preceding Rolling Schedules and Subsequent Artificial Ageing Heat Treatment. Materials Characterization, 170(2020)110676.

[69] Dan-yang Liu, Jie-xia Wang, Jin-feng Li*, Yun-long Ma, Kai Zhang, Rui-feng Zhang. The effect of Ag element on the microstructure characteristic evolution of an Al-Cu-Li-Mg alloy. Journal of Materials Research and Technology. 2020, 9(5): 11121-11134.

[68] Tian-le Liu, Jin-feng Li, Dan-yang Liu*, Yun-long Ma. Microstructure evolution and mechanical properties of the 2195 Al-Li alloy via different annealing and ramp heating-up treatments. Metals. 2020, 10(7): 910.

[67] Dan-yang Liu, Yun-long Ma, Jin-feng Li*, Rui-feng Zhang*, Hideaki Iwaoka, Shoichi Hirosawa. Precipitate microstructures, mechanical properties and corrosion resistance of Al-1.0 wt%Cu-2.5 wt%Li alloys with different micro-alloyed elements addition. Materials Characterization. 167 (2020) 110528.

[66] 唐建国, 刘添乐, 李睿, 马云龙, 李劲风*. 喷射沉积2195铝锂合金轧制板材晶粒组织及性能控制研究. 稀有金属材料与工程. 2020, 49(4): 1337~1344

[65] Ma Yun-long, Li Jin-feng*, Zhang Run-zhe, Tang Jian-guo, Huang Cheng, Li Hong-ying, Zheng Zi-qiao. Strength and structure variation of 2195 Al-Li alloy caused by different deformation process of hot extrusion and cold-rolling. Trans. Non-ferrous Met. Soc. China. 2020, 30(4): 835-849

[64] Dan-yang Liu, Yun-long Ma, Jin-feng Li*, Cheng Huang,Yang Wang, Zhi-xiu Wang, Rui-feng Zhang. The influence of Zn addition on microstructure of an Al-1.7 Cu-4.0 Li-0.4 Mg alloy. Journal of Materials Research and Technology. 2020, 9(2): 2423-2439. Doi: 10.1016/j.jmrt.2019.12.074.

[63] 刘晨,李劲风*,宁红,刘丹阳,陈永来,张绪虎,马鹏程,谭澄宇. 2060铝锂合金的淬透性. 中国有色金属学报, 2019, 29(11): 2451-2458

[62] Danyang Liu, Jinfeng Li*, Ruifeng Zhang, Yongcheng Lin*, Pengcheng Ma, Yonglai Chen, Xuhu Zhang. Cu/Li Ratio on the Microstructure Evolution and Corrosion Behaviors of Al-xCu-yLi-Mg Alloys. Acta Metallurgica Sinica (English Letters). 2020, 33(9): 1201-1216. DOI:10.1007/s40195-020-01023-1.

[61] 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

[60] 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

[59] 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

[58] 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

[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 2XXX 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. Mechanical Properties, Corrosion Behaviors and Microstructures of 7075 Aluminium Alloy with Various Aging Treatments. Trans. Nonferrous Met. Soc.China. 2008, 18(4):755~762


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  • Date of Employment:2003-06-25
  • School/Department:School of Materials science and Engineering
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