钛表面微弧氧化结构和成分对其润湿性的影响

doi:10.11896/cldb.18090270

材料导报

2019, Vol. 33

Issue (24): 4035-4039 https://doi.org/10.11896/cldb.18090270

无机非金属及其复合材料

钛表面微弧氧化结构和成分对其润湿性的影响

张贤琳¹, 王晓琳¹, 马建威¹, 李宝娥¹, 李海鹏¹, 刘世敏², 梁春永¹, 王洪水¹

1 河北工业大学材料科学与工程学院,天津 300130
2 天津商业大学宝石及材料工艺学系,天津 300134

The Influence of Structure and Composition of Titanium Surface After Micro-Arc Oxidation on Its Wettability

ZHANG Xianlin¹, WANG Xiaolin¹, MA Jianwei¹, LI Bao’e¹, LI Haipeng¹, LIU Shimin², LIANG Chunyong¹, WANG Hongshui¹

1 School of Materials Science and Engineering, Hebei University of Technology, Tianjin 300130
2 Department of Gemstone and Material Technique, Tianjin University of Commerce, Tianjin 300134

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摘要通过改变微弧氧化过程中的电压及电流在钛表面分别制备了羟基磷灰石(HA)和TiO₂涂层,为分析表面不同结构和成分对材料润湿性的影响,利用超声清洗制备了具有多孔结构的HA。结果表明:对于不同形貌的HA涂层,花瓣状结构HA的润湿性优于多孔结构,且HA的花瓣越大、致密性越高,其润湿性越好;而与多孔结构的TiO₂相比,HA涂层的接触角更小,润湿性更好。

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	张贤琳
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	马建威
	李宝娥
	李海鹏
	刘世敏
	梁春永
	王洪水

关键词: 钛微弧氧化结构成分润湿性

Abstract: Hydroxyapatite (HA) and TiO₂ coatings were prepared on titanium surface by changing the voltage and current during micro-arc oxidation,respectively. In order to analyze the influence of surface structure and composition on the wettability of materials, HA with porous structure was prepared by ultrasonic cleaning. The results showed that, with the same composition of HA, the wettability of the petal structure is superior to po-rous structure. And the greater the petal density and petal shape are, the better the wettability is. While, for the surface coatings with porous structure, the wettability of HA is better than that of TiO₂.

Key words: titanium micro-arc oxidation (MAO) structure composition wettability

出版日期: 2019-12-25 发布日期: 2019-10-28

ZTFLH:

TB33

基金资助: 国家自然科学基金(51201056);河北省自然科学基金 (E2013202021;E2017202032);河北省留学归国人员项目 (C2015003038)

作者简介: 张贤琳,河北工业大学,硕士研究生,主要研究生物材料和抗菌材料;李宝娥,河北工业大学,副教授。2008年毕业于中国科学院上海硅酸盐研究所,获博士学位。研究方向为Ti植入体的表面处理。

引用本文:

张贤琳, 王晓琳, 马建威, 李宝娥, 李海鹏, 刘世敏, 梁春永, 王洪水. 钛表面微弧氧化结构和成分对其润湿性的影响[J]. 材料导报, 2019, 33(24): 4035-4039.
ZHANG Xianlin, WANG Xiaolin, MA Jianwei, LI Bao’e, LI Haipeng, LIU Shimin, LIANG Chunyong, WANG Hongshui. The Influence of Structure and Composition of Titanium Surface After Micro-Arc Oxidation on Its Wettability. Materials Reports, 2019, 33(24): 4035-4039.

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http://www.mater-rep.com/CN/10.11896/cldb.18090270 或 http://www.mater-rep.com/CN/Y2019/V33/I24/4035

Matsuno H, Yokoyama A, Watari F, et al. Biomaterials, 2001, 22(11), 1253.2 Liu X, Chu P K, Ding C. Materials Science & Engineering R, 2004, 47(3), 49.3 Mei S, Wang H, Wang W, et al. Biomaterials, 2014, 35(14),4255.4 Alsayed A, Anil S, Jansen J A, et al. Clinical Oral Implants Research, 2015, 26(10), 1215.5 Li S, Ni J, Liu X, et al. Journal of Biomedical Materials Research Part B Applied Biomaterials, 2012, 100B(6), 1587.6 Nishio K, Neo M, Akiyama H, et al. Journal of Biomedical Materials Research, 2015, 52(4), 652.7 Yong H, Han S, Pang X, et al. Applied Surface Science, 2013, 271(6), 299.8 Hsu S, Liu B W, Chiang H, et al. Bio-medical Materials and Enginee-ring, 2007, 17(1), 53.9 Pazokian H, Jelvani S, Mollabashi M. Applied Surface Science, 2011, 257(14), 6186.10 Su B H, Ran J G, Gou L, et al. Journal of Function Materials, 2004, 35(2), 251(in Chinese).苏葆辉, 冉均国, 苟立, 等. 功能材料, 2004, 35(2), 251.11 Benzarti K, Perruchot C, Chehimi M M. Colloids & Surfaces A Physicochemical & Engineering Aspects, 2006, 286(1), 78.12 Banaszek K, Klimek L. Archives of Foundry Engineering, 2015, 15(3), 11.13 Zhang R F, Qiao L P, Qu B, et al. Materials Letters, 2015, 153(9), 77.14 Sabetrasekh R, Tiainen H, Reseland J E, et al. Biomedical Materials, 2010, 5(1), 15003.15 Han Y, Xu K. Journal of Biomedical Materials Research Part A, 2010, 71A(4),608.16 Liu S, Li B, Liang C, et al. Applied Surface Science, 2016, 362, 109.17 Yeung W K, Sukhorukova I V, Shtansky D V, et al. RSC Advances, 2016, 6(15), 12688.18 Chen J Z, Shi Y L, Lei W, et al. Materials Letters, 2006, 60(20), 2538.19 Fan X, Bo F, Di Y, et al. Applied Surface Science, 2012, 258(19), 7584.20 Okabe Y, Kurihara S, Yajima T, et al. Surface & Coatings Technology, 2005, 196(1), 303.21 Kang H C, Jacobi A M. Langmuir the ACS Journal of Surfaces & Colloids, 2015, 27(24), 14910.22 Wolansky G, Marmur A. Colloids & Surfaces A Physicochemical & Engineering Aspects, 1999, 156(1-3), 381.23 Asiri A M, Al-Amoudi M S, Bazaid S A, et al. Journal of Saudi Chemical Society, 2014, 18(2), 155.24 Yang Y, Feng Q, Zhang J H, et al. Journal of Atomic and Molecular Physics, 2015(4), 695(in Chinese).杨英, 冯庆, 张菊花, 等. 原子与分子物理学报, 2015(4), 695.25 López-Pérez P M, Silva R M P D, Serra C, et al. Journal of Materials Chemistry, 2009, 20(3), 483.26 Llopis-Hernández V, Rico P, Ballester-Beltrán J, et al. Plos One, 2011, 6(5), e19610.

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