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纯钛基体长效超疏水表面的低成本制备 被引量:3

Preparation of Durable Superhydrophobic Surface on Pure Titanium Substrate via Low-cost Route
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摘要 为降低钛基上超疏水表面的制备成本,提高超疏水表面的耐久性能,以喷砂-阳极氧化法在纯钛基体上构造微纳复合粗糙结构,并使用商用氟碳罩光漆直接对其进行修饰获得超疏水性表面。利用傅里叶变换红外光谱(FTIR),场发射扫描电子显微镜(FE-SEM)和接触角测试等技术对超疏水性表面的化学组成、表面形貌、润湿性和表面耐久性进行了研究。结果表明:喷砂处理在钛基表面构筑微米级凹坑,阳极氧化通过形成网状氧化膜在钛基表面构造纳米级结构,氟碳罩光漆修饰该微纳复合粗糙表面后,为表面引入大量含氟基团,使其获得超疏水性能。超疏水性表面与纯水的静态接触角达162°±2.3°,滚动角为2.1°±0.2°,具有优异的环境耐久性。 In order to reduce the preparation cost of the superhydrophobic surface on titanium sub- strate and improve its durability, sandblasting and anodic oxidization were used to construct a micro/ nanometer scale rough surface on pure Ti substrate, and then the superhydrophobic surface was ob- tained via further modification by fluorine carbon varnish. The chemical composition, morphology, wettability and environment durability of the superhydrophobic surface were investigated by FTIR, FE-SEM and contact angle measurement respectively. The results show that the structure at micron level is fabricated by sandblasting while the nano-web structure is prepared by anodizing. After modi- fied by fluorine carbon varnish, this micro/nanometer scale rough surface contained masses of fluoride groups and attains superhydrophobicity. The superhydrophobic surface has a static contact angle of 162°±2.3° with the sliding angle of 2.1°±0.2° and shows excellent air and seawater durability.
作者 王晨玥 杨文秀 张洪敏 王莼 汪涛
机构地区 南京航空航天大学材料科学与技术学院
出处 《材料工程》 EI CAS CSCD 北大核心 2015年第11期13-18,共6页 Journal of Materials Engineering
关键词 阳极氧化 超疏水 氟碳罩光漆 titanium anodic oxidization superhydrophobic fluorine carbon varnish
分类号 TG174 [金属学及工艺—金属表面处理]
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参考文献24

  • 1RAHMAWAN Y, XU L, YANG S. Self-assembly of nanostruc- tures towards transparent, superhydrophobic surfaces[J]. Jour- nal of Materials Chemistry A, 2013, 1(9): 2955-2969.
  • 2蔡锡松,肖新颜.超疏水表面涂层研究进展[J].现代化工,2013,33(1):22-25. 被引量:9
  • 3徐文骥,宋金龙,孙晶,窦庆乐.金属基体超疏水表面制备及应用的研究进展[J].材料工程,2011,39(5):93-98. 被引量:27
  • 4ZHENG Y M, BAI H, JIANG L, et al. Directional water collec- tion on wetted spider silk[J]. Nature, 2010, 463(8729): 640- 643.
  • 5BHUSHAN B, JUNG Y C. Natural and biomimetic artificial sur- faces for superhydrophobicity, self-cleaning, low adhesion, and drag reduction[J]. Progress in Materials Science, 2011, 56(1) ; 1 -108.
  • 6刘圣,耿兴国,周晓峰,吴建华,欧修龙,高鹏.铝及铝合金表面超疏水协和涂层的制备与性能研究[J].中国表面工程,2008,21(3):30-34. 被引量:9
  • 7ZHANG X, LIANG J, LIU B, et al. Preparation of superhydro- phobic zinc coating for corrosion protection[J]. Colloids and Sur- faces A: Physicochemical and Engineering Aspects, 2014, 454: 113-118.
  • 8QI Y, CUI Z, LIANG B, et al. A fast method to {abrieate super- hydrophobie surfaces on zinc substrate with ion assisted chemical etching[J]. Applied Surface Science, 2014, 305 : 716- 724.
  • 9WANG S, FENG L, JIANG L. One-step solution-immersion process for the fabrication of stable bionic superhydrophobic sur- facesrJ:. Advanced Materials, 2006, 18(6): 767-770.
  • 10WANG T, CHANG L, ZHUANG L, et al. A hierarchical and superhydrophobic ZnO/C surface derived from a rice-leaf tem- plate[ J 1. Monatshefte far Chemie-Chemical Monthly, 2014, 145(1) : 65-69.

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材料工程
2015年 第11期

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