目的:研究相同工艺条件下阳极氧化法在不同钛合金基底(TA1,TC4,TC4F136)上生成的TiO2薄膜的力学性能差异。方法采用扫描电镜结合原子力显微镜观察3种薄膜的形貌和结构,用UNHT型纳米压痕仪测试TiO2纳米薄膜的力学性能,利用纳米划痕法测试3种钛合金表面生成的TiO2薄膜与基底的结合强度及摩擦性能,用纳米压痕技术测试TiO2的显微硬度和弹性模量。结果电解液及其它电化学条件相同时,不同钛合金基底上形成的TiO2薄膜结构(管直径、管壁厚及管长度)不同。结论阳极氧化法在钛合金基底上生成的TiO2纳米薄膜的力学性能,由TiO2微观结构及其与基底的结合强度决定,微观结构和结合强度归根到底由合金中元素决定。
ABSTRACT:Objective To determine the differences in mechanical properties of TiO2 nano-film prepared by the method of anodic oxidation on different titanium alloy surfaces (TA1, TC4, TC4F136) under the same processing conditions. Methods SEM and AFM were used to observe morphology and structure of these three kinds of samples. The UNHT nanoindentor was used to test the mechanical property of TiO2 nano-film, and nano scratch was performed to determine the adhesive strength and the friction property between TiO2 nano-films on the three titanium alloy surfaces and the substrate. Nanoindentation was used to test microhardness and elastic modulus of TiO2 nano-films. Results It showed that the structure ( tube diameter, wall thickness and length) of TiO2 films formed on different titanium alloy substrate differed from each other although they were prepared in the same electrolyte and other electrochemical conditions. Conclusion The mechanical properties of TiO2 nano-films on titanium alloy substrates which are pre-pared by anodic oxidation depend on the micromorphology of TiO2 and its adhesive strength with the substrates which ultimately de-pend on the difference of elementary composition of those alloys.
参考文献
| [1] | GONG D W;GRIMES C A;VARGHESE O K et al.Titanium Oxide Nanotube Arrays Prepared by Anodic Oxidation[J].Journal of Materials Research,2001,16(12):3331-3334. |
| [2] | Hu, MZ;Lai, P;Bhuiyan, MS;Tsouris, C;Gu, BH;Paranthaman, MP;Gabitto, J;Harrison, L .Synthesis and characterization of anodized titanium-oxide nanotube arrays[J].Journal of Materials Science,2009(11):2820-2827. |
| [3] | 张杭州,孙羽,王琳,田昂,薛向欣,白希壮.羟基磷灰石/TiO2纳米管复合物的生物相容性[J].中国组织工程研究,2014(03):335-340. |
| [4] | 张勤杰,姚文红,贺本林,葛洪仑,孙苗,刘威,曲俊,王玮.阳极氧化法制备TiO2膜在模拟深海热液区的耐腐蚀性能[J].中国腐蚀与防护学报,2013(01):23-28. |
| [5] | OLIVER W C;PHARR G M .An Improved Technique for Determining Hardness and Elastic Modulus using Load and Displacement Sensing indentation Experiments[J].Journal of Materials Research,1992,7(6):1564-1583. |
| [6] | 黎明,温诗铸.纳米压痕技术理论基础[J].机械工程学报,2003(03):142-145. |
| [7] | 马峰,蔡珣.膜基界面结合强度表征和评价[J].表面技术,2001(05):15-19. |
| [8] | 黄珂,杨伏良,陈力学,马凯,郭磊.划痕法测定TiAlN涂层结合强度的研究[J].表面技术,2013(05):107-111. |
| [9] | 蒋洪奎,胡礼广,朱春耕,钟俊坚.微/纳米尺度构件力学性能测试技术研究[J].表面技术,2006(04):77-79,84. |
| [10] | 晏智鑫,胡忠举,龙东平.TC4钛合金超亲/疏水TiO2膜制备及其摩擦性能分析[J].材料导报,2014(16):117-120. |
| [11] | 龙东平;薛建荣;晏智鑫.钛表面有序TiO2 纳米管状薄膜的力学性能及摩擦性能实验研究[A].,2013 |
| [12] | 张泰华.微/纳米力学测试技术及其应用[M].北京:机械工业出版社,2005 |
| [13] | 张泰华.影响纳米压入测试结果的因素[J].实验力学,2004(04):437-442. |
| [14] | J. Stallard;S. Poulat;D. G. Teer .The study of the adhesion of a TiN coating on steel and titanium alloy substrates using a multi-mode scratch tester[J].Tribology International,2006(2):159-166. |
| [15] | 张星,王鹤峰,袁国政,树学峰.Ti、TiN、TiO2改性层的纳米力学性能测试与分析[J].实验力学,2012(06):721-726. |
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