李周 - 中南大学 - 材料科学与工程学院

个人简介

中南大学材料科学与工程学院教授、博士生导师；英国利物浦大学和德国亚琛工业大学访问学者、新加坡南洋理工大学研究员。“湖南省新世纪121人才工程”人选。中国有色金属学会贵金属委员会副主任委员。中国工程教育专业认证协会材料类专业认证委员会副秘书长。

研究领域

主要研究方向为高性能铜合金的设计、制备加工、结构表征；电真空用阴极材料和复合材料。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1] Gong S, Li Z, Zhao Y Y. An extended Mori–Tanaka model for the elastic moduli of porous materials of finite size[J]. Acta Materialia, 2011, 59(17):6820-6830. [2] Xiao Z, Li Z, Zhu A, et al. Surface characterization and corrosion behavior of a novel gold-imitation copper alloy with high tarnish resistance in salt spray environment[J]. Corrosion Science, 2013, 76(2):42-51. [3] Gong S, Wu D, Li Y, et al. Temperature-independent piezoresistive sensors based on carbon nanotube/polymer nanocomposite[J]. Carbon, 2018. [4] Yue L, Zhou L, Jiang Y, et al. The microstructure evolution and properties of a Cu-Cr-Ag alloy during thermal-mechanical treatment[J]. Journal of Materials Research, 2017, 32(7):1324-1332. [5] Li Y, Xiao Z, Li Z, et al. Microstructure and properties of a novel Cu-Mg-Ca alloy with high strength and high electrical conductivity[J]. Journal of Alloys & Compounds, 2017, 723. [6] Yang G, Li Z, Yuan Y, et al. Microstructure, mechanical properties and electrical conductivity of Cu–0.3Mg–0.05Ce alloy processed by equal channel angular pressing and subsequent annealing[J]. Journal of Alloys & Compounds, 2015, 640(2):347-354. [7] Yuan Y, Li Z, Xiao Z, et al. Microstructure evolution and properties of Cu-Cr alloy during continuous extrusion process[J]. Journal of Alloys & Compounds, 2017, 703:454-460. [8] Pang Y, Xia C, Wang M, et al. Effects of Zr and (Ni, Si) additions on properties and microstructure of Cu–Cr alloy[J]. Journal of Alloys & Compounds, 2014, 582(5):786-792. [9] Shen L, Li Z, Dong Q, et al. Microstructure evolution and quench sensitivity of Cu-10Ni-3Al-0.8Si alloy during isothermal treatment[J]. Journal of Materials Research, 2015, 30(5):736-744. [10] Xiao Z, Fang M, Li Z, et al. Structure and properties of ductile CuAlMn shape memory alloy synthesized by mechanical alloying and powder metallurgy[J]. Materials & Design, 2014, 58(6):451-456. [11] Shen L, Li Z, Zhang Z, et al. Effects of silicon and thermo-mechanical process on microstructure and properties of Cu–10Ni–3Al–0.8Si alloy[J]. Materials and Design, 2014, 62(62):265-270. [12] Li X, Li Z, Tao X F, et al. Distribution of residual strain around nanoindentations in silicon[J]. Materials Letters, 2014, 132(10):285-289. [13] Lei Q, Li Z, Wang J, et al. Hot working behavior of a super high strength Cu–Ni–Si alloy[J]. Materials & Design, 2013, 51:1104-1109. [14] Lei Q, Li Z, Dai C, et al. Effect of aluminum on microstructure and property of Cu–Ni–Si alloys[J]. Materials Science & Engineering A, 2013, 572(6):65-74. [15] Chen J L, Li Z, Zhu A Y, et al. Corrosion behavior of novel imitation-gold copper alloy with rare earth in 3.5% NaCl solution[J]. Materials & Design, 2012, 34:618-623. [16] Liu N, Li Z, Xu G, et al. Effect of tellurium on machinability and mechanical property of CuAlMnZn shape memory alloy[J]. Materials Science & Engineering A, 2011, 528(27):7956-7961. [17] Xia C, Jia Y, Zhang W, et al. Study of deformation and aging behaviors of a hot rolled–quenched Cu–Cr–Zr–Mg–Si alloy during thermomechanical treatments[J]. Materials & Design, 2012, 39:404-409. [18] Xia C, Zhang W, Kang Z, et al. High strength and high electrical conductivity Cu–Cr system alloys manufactured by hot rolling–quenching process and thermomechanical treatments[J]. Materials Science & Engineering A, 2012, 538:295-301. [19] Lei Q, Li Z, Zhu A, et al. The transformation behavior of Cu–8.0Ni–1.8Si–0.6Sn–0.15Mg alloy during isothermal heat treatment[J]. Materials Characterization, 2011, 62(9):904-911. [20] Lei Q, Li Z, Wang M P, et al. Phase transformations behavior in a Cu–8.0Ni–1.8Si alloy[J]. Journal of Alloys & Compounds, 2011, 509(8):3617-3622.