,774 北京科技大学学报 第30卷 surface wettability conversion of Zno and TiO2 thin films.J [16]Feng X.Feng L,Jin M,et al.Reversible super-hydrophobicity Phys Chem B,2001,105:1984 to super-hydrophilicity transition of aligned ZnO nano rod films. [14]Liu H,Feng L.Zhai J.et al.Reversible wettability of a chemi- JAm Chem Soc.2004.126:62 cal vapor deposition prepared Zno films between super [17]Li M.Zhai J.Liu H.et al.Electrochemical deposition of con- hydrophobicity and super hydrophilicity Langmir.2004.20: ductive super-hydrophobic zinc oxide thin films.J Phys Chem 5659 B,2003,107:9954 [15]Shinde V R.Lokhande C D.Mane RS,et al.Hydrophobic and [18]Liu C S,Masuda Y,Wu Y.et al.A simple route for growing textured ZnO films deposited by chemical bath deposition:an thin films of uniform ZnO nano rod arrays on functionalized Si nealing effeet.Appl Surf Sei.2005.245:407 surfaces.Thin Solid Films.2006.503:110 (上接第759页) (华明建,李春志,王鸿渐,微观组织对7075铝合金的屈服强 [7]Adachi H.Osamura K.Ochiai S,et al.Mechanical property of 度和抗应力腐蚀性能的影响-金属学报,1988,A24:41) nanoscale precipitate hardening aluminum alloys.Scripta Mater, [10]Sha G.Cerezo A.Early-stage precipitation in Al-Zn-Mg Cu 2001,44,1489 alloy(7050).Acta Mater,2004,52:4503 [8]Park J K.Ardell A J.Affection of retrogression and reaging treat- [11]Zeng Y.Yin Z M.Pan Q,et al.Present research and develop- ments on the microstructure of Al-7075-T651.Metall Trans. ing trends of ultra high strength aluminum alloys.ICent South 1984,A15,1531. Univ Technol Nat Sci,2002,33:592 [9]Hua M J.Li C Z.Wang H J.Effect of microstructures on the (曾渝,尹志民,潘青林,等.超高强铝合金的研究现状及发展 yield strength and SCR of 7075 aluminium alloy.Acta Metall 趋势.中南工业大学学报:自然科学版,2002,33:592) Sin,1988,A24:41surface wettability conversion of ZnO and TiO2 thin films. J Phys Chem B2001105:1984 [14] Liu HFeng LZhai Jet al.Reversible wettability of a chemical vapor deposition prepared ZnO films between superhydrophobicity and super-hydrophilicity.L angmuir200420: 5659 [15] Shinde V RLokhande C DMane R Set al.Hydrophobic and textured ZnO films deposited by chemical bath deposition:annealing effect.Appl Surf Sci2005245:407 [16] Feng XFeng LJin Met al.Reversible super-hydrophobicity to super-hydrophilicity transition of aligned ZnO nano-rod films. J A m Chem Soc2004126:62 [17] Li MZhai JLiu Het al.Electrochemical deposition of conductive super-hydrophobic zinc oxide thin films.J Phys Chem B2003107:9954 [18] Liu C SMasuda YWu Yet al.A simple route for growing thin films of uniform ZnO nano-rod arrays on functionalized Si surfaces.Thin Solid Films2006503:110 (上接第759页) [7] Adachi HOsamura KOchiai Set al.Mechanical property of nanoscale precipitate hardening aluminum alloys.Scripta Mater 200144:1489 [8] Park J KArdell A J.Affection of retrogression and reaging treatments on the microstructure of A1-7075-T651. Metall T rans 1984A15:1531. [9] Hua M JLi C ZWang H J.Effect of microstructures on the yield strength and SCR of 7075 aluminium alloy. Acta Metall Sin1988A24:41 (华明建李春志王鸿渐.微观组织对7075铝合金的屈服强 度和抗应力腐蚀性能的影响.金属学报1988A24:41) [10] Sha GCerezo A.Early-stage precipitation in A-l Zn-Mg-Cu alloy (7050).Acta Mater200452:4503 [11] Zeng YYin Z MPan Qet al.Present research and developing trends of ultra high strength aluminum alloys.J Cent South Univ Technol Nat Sci200233:592 (曾渝尹志民潘青林等.超高强铝合金的研究现状及发展 趋势.中南工业大学学报:自然科学版200233:592) ·774· 北 京 科 技 大 学 学 报 第30卷