中南大学李劲风

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教授博士生导师硕士生导师
入职时间：2003-06-25
所在单位：材料科学与工程学院
职务：副院长
办公地点：米塔尔421
性别：男
联系方式：Email: lijinfeng@csu.edu.cn 电话：13278861206
在职信息：在职

论文成果

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[1]Detailed investigation of quench sensitivity of 2050 Al-Li alloy by interrupted quenching method and novel end quenching method （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*）.Journal of Alloys and Compounds, 2021, 888: 161450.
[2]Effects of microstructure on tensile properties of AA2050-T84 Al-Li alloy （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*）.Trans. Nonferrous Met. Soc. China, 2021, 30 (5) : 1189-1204.
[3]Quench sensitivity and microstructure evolution of the 2060 Al-Cu-Li alloy with a low Mg content.Materials Characterization, 2021, 177: 111156.
[4]Sluggish precipitation strengthening in Al-Cu-Li alloy with a high concentration of Mg.Journal of Materials Research and Technology, 2021, 11: 1806-1815.
[5]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.
[6]Construction of Interlayer-Expanded MoSe2-Nitrogen-Doped Graphene Heterojunctions for Ultra-Long-Cycling Rechargeable Aluminum Storage.Applied Energy Materials, 2021, 4 (2) : 1575-1582.
[7]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.
[8]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..
[9]Evolution of aging precipitates in an Al-Li alloy with 1.5 wt.% Li concentration.VACCUM, 2020, 182 (109677)
[10]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, 2020, 167: 110528.
[11]Microstructure evolution and mechanical properties of the 2195 Al-Li alloy via different annealing and ramp heating-up treatments.Metals, 2020, 10 (7) : 910.
[12]Microstructure Evolution and Mechanical Properties of Al-Cu-Li Alloys with Different Preceding Rolling Schedules and Subsequent Artificial Ageing Heat Treatment.Materials Characterization, 2020, 170(: 110676.
[13]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.
[14]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.
[15]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.
[16]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.
[17]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.
[18]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.
[19]2060铝锂合金的淬透性.中国有色金属学报, 2019, 29 (11) : 2451-2458.
[20]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.

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