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纯钛及其合金表面纳米多孔TiO_2膜的制备研究 被引量:14

Fabrication of Nano-Porous TiO_2 Films on Pure Titanium and Its Alloy
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摘要 在含有HF酸和C rO3的电解液中,恒压直流阳极氧化法可以在TA 1和TC 4表面分别制备获得纳米多孔T iO2膜。各阳极氧化参数对于纳米多孔膜的宏观形貌、微观结构等都有着重要的影响。随着阳极氧化电压的增高,纳米多孔T iO2膜的平均孔径值和氧化膜厚度也随之增大;随着氧化时间的延长,氧化膜的厚度在一定范围内不断增厚,当达到极限值后保持不变;在较高电压下,随着氧化时间的延长,纳米多孔T iO2膜的平均孔径值明显增大;在较低电压下,随着氧化时间的延长,纳米多孔T iO2膜的平均孔径值没有明显的变化。试验表明纳米多孔T iO2膜的生长过程强烈依赖于电场支持下电解液对钛基体的溶解过程(即场致溶解过程)。 Nano-porous anodic films are fabricated by the anodic oxidation of TA1 and TC4 with the invariable anodizing voltage on HF and CrO3electrolyte. Anodizing parameters have an important influence on the morphological characters of nano-porous TiO2 films. The effect of anodizing parameters (anodizing voltage, anodizing time) on the morphological characters of nano-porous TiO2 films is investigated. The average diameters of nano-holes on nano-porous TiO2 films and the thickness of the anodic films become bigger when the anodizing voltage increases. The thickness of anodic films has same trend with the increasing of the anodizing time. The average diameters of nano-holes increases evidently with anodizing time increasing on higher anodizing voltage, but it is not obvious on lower anodizing voltage. Therefore, it is concluded that the growth of nano-porous anodic films is strongly relied on the dissolution process on the substrates in the electrical field (field-enhanced dissolution).
作者 陶海军 陶杰 王玲 王炜
机构地区 南京航空航天大学材料科学与技术学院
出处 《南京航空航天大学学报》 EI CAS CSCD 北大核心 2005年第5期597-602,共6页 Journal of Nanjing University of Aeronautics & Astronautics
基金 江苏省自然科学基金(BK2004129)资助项目 航空科学基金(04H52059)资助项目
关键词 阳极氧化 纳米多孔TiO2膜 场致溶解 制备 anodic oxidation nano-porous TiO2 films field-enhanced dissolution fabrication
分类号 TG178 [金属学及工艺—金属表面处理] TB39 [一般工业技术—材料科学与工程]
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参考文献13

  • 1Zwilling V, Darque-Ceretti E, Boutry-Forveille A,et al. Structure and physicochemistry of anodic oxide films on titanium and TA6V alloy[J]. Surf Interface Anal,1999, 27(7):629~637.
  • 2Smith T. A surface treatment for 6-Al-4V[J]. J Adhesion, 1983,15 (2): 139~ 148.
  • 3王晓蔚,徐修成.用于钛合金胶接的碱性阳极化处理方法的研究[J].北京航空航天大学学报,1997,23(4):521-524. 被引量:6
  • 4Quarto F D, Gentile C, Piazza S, et al. Photoelectrochemical study on anodic aluminum oxide films[J]. J Electrochem Soc,1991,138(6) :1856~1861.
  • 5Gong D, Grimes G A, Varghese O K, et al. Titanium oxide nanotube arrays prepared by anodic oxidation[J]. J Mater Res,2001,16(12):3331~3334.
  • 6Mor G K, Varghese O K, Paulose M, et al. Fabrication of tapered, conical-shaped titania nanotubes[J]. JMater Res,2003,18(11):2588~2593.
  • 7邵颖,薛宽宏,陈巧玲,何春建,陶菲菲,沈伟,刘传,冯玉英.TiO_2纳米管的光催化作用[J].应用化学,2003,20(5):433-436. 被引量:19
  • 8刘惠玲,周定,李湘中,余秉涛.网状TiO_2/Ti电极的制备及染料的光电催化降解[J].哈尔滨工业大学学报,2002,34(6):789-793. 被引量:9
  • 9Iwata T, Ishikawa M, Ichino R, et al. Photocatalytic reduction of Cr(Ⅵ) on TiO2film formed by anodizing[J]. Surface and Coatings Technology,2003,169~170:703~706.
  • 10Varghese O K, Gong D, Paulose M, et al. Hydrogen sensing using titania nanotubes[J]. Sensors and Actuators B,2003,93(1~3): 338~344.

二级参考文献12

  • 1张新革,火时中.钛在中性水溶液中表面氧化膜的生长规律和性质[J].腐蚀科学与防护技术,1995,7(1):23-28. 被引量:2
  • 2[1]OLLIS D F, PELIZZETTI E, SERPONE N. Destruction of water contaminants[ J]. Environ Sci Technol, 1991,25(9) :1523-1529.
  • 3[2]ROSS H, BENDIG J, HECHT S. Sensitized photocatalytic pxidation of terbutylazine sol[ J ]. Energy Mater Sol Cells, 1994,33:475-481.
  • 4[3]AURIAN - BLAJENI B, HALMANN M. Photocatalytic degradation of carbon dioxide and water into formaldehyde and methanol on semiconductor material [ J ]. Sol Energy, 1980,25:165-170.
  • 5[4]MA Y, YAO J N. Photodegradation of rhodamine B catalytic by TiO2 thin films [ J ]. J Photochem Photobiol A:Chem, 1998,116:167-170.
  • 6[5]MIKULA M, BLENCHA J, CEPPAN M. Photoelectrochemical properties of anodic TiO2 layers prepared by various current densities [ J ]. Electrochem Soc, 1992,139:3470-3474.
  • 7[6]MATTHEWSR W. Purification of water near - UV illuminated suspension of titanium dioxide [ J ]. Water Res,1990,24:653-660.
  • 8[7]KAMAT P V. Photoelectrochemistry in particulate system. 9. Photosensitized reduction in a colloidal TiO2 system using anthracene - 9 - carboxylic acid as the sensitizer [ J ]. J Phys Chem, 1989,859-864.
  • 9郑瑞琪,结构胶粘剂与胶接技术,1993年
  • 10焦洁清,航空工艺技术,1989年,2卷,25页

共引文献42

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引证文献14

二级引证文献91

南京航空航天大学学报
2005年 第5期

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