超声辅助微弧氧化Ti-13Nb-13Zr合金制备仿生涂层及其断裂力学性能*

doi:10.11896/j.issn.1005-023X.2017.016.010

《材料导报》期刊社

2017, Vol. 31

Issue (16): 46-50 https://doi.org/10.11896/j.issn.1005-023X.2017.016.010

材料研究

超声辅助微弧氧化Ti-13Nb-13Zr合金制备仿生涂层及其断裂力学性能^*

王凤彪¹, 张嘉易¹, 丁茹¹, 李银玉¹, 李丽丽¹, 陈松²

1 沈阳理工大学机械工程学院, 沈阳 110168;
2 辽宁科技大学机械工程及自动化学院, 鞍山 114051

Performance and Fracture Toughening of Biological Coating Prepared by Ultrasonication-assisted Micro-arc Oxidation Technique on Ti-13Nb-13Zr Alloy Surface

WANG Fengbiao¹, ZHANG Jiayi¹, DING Ru¹, LI Yinyu¹, LI Lili¹, CHEN Song²

1 School of Mechanical Engineering, Shenyang Ligong University, Shenyang 110168;
2 School of Mechanical Engineering & Automation, Liaoning University of Science and Technology, Anshan 114051

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摘要为了提高微弧氧化钛合金制备的脆性仿生涂层的断裂力学性能,利用超声辅助微弧氧化复合工艺在Ti-13Nb-13Zr合金表面制备了钙磷生物涂层。通过压痕法测试分析了涂层断裂韧性,采用扫描电镜和X射线衍射仪测试了涂层表面形貌和相组成,并与微弧氧化制备的涂层性能进行了比较,分析了增韧原因。结果表明,引入超声后,微弧放电电压下降了40 V,涂层致密层明显增厚;相同电源占空比条件下,超声工艺所制备涂层的断裂韧性相比无超声工艺都有所提高。部分锐钛矿相TiO₂转变为金红石相的相变增韧,超声空化效应引起的涂层致密化和增厚效果,以及微裂纹的均匀分布,是促使涂层断裂力学性能提高的主要原因。该复合工艺实现了微弧氧化钛合金生物涂层的增韧。

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	王凤彪
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关键词: 超声辅助微弧氧化生物涂层断裂韧性增韧机制

Abstract: To improve the fracture mechanical property of the brittle biological coating prepared by micro-arc oxidation (MAO) on the Ti-13Nb-13Zr alloy surface, a combined technique of ultrasonication and micro-arc oxidation (US+MAO) was used to fabricate Ca-P biological coating. Indentation test was adopted to analyze coating fracture toughness, and scanning electron microscopy (SEM) and X-ray diffraction (XRD) were employed to determine coating surface morphology and phase composition. Moreover, the coating performance was compared with that prepared by the original MAO process, and the toughening factors were analyzed. The results show that all the US+MAO coatings have higher fracture toughness compared with coatings prepared by the ori-ginal MAO process under the same duty cycle. Phase transformation toughening of partial rutile TiO₂ to anatase, coating densification and thickening induced by ultrasonic cavitation effect, and the well distributed micro-cracking are the main causes that lead to enhanced fracture mechanical property. This combined technique achieves the toughening of MAO titanium alloy biological coating.

Key words: ultrasonication-assisted micro-arc oxidation biological coating fracture toughness toughening mechanism

出版日期: 2017-08-25 发布日期: 2018-05-07

ZTFLH:

TH161

基金资助: 2014年国家科技重大专项项目(2014ZX04015021);2016年高层次人才科研支持计划(4441102C001)

作者简介: 王凤彪:男,1979年生,博士,副教授,研究方向为钛合金表面仿生改性 E-mail:wfb_0_0@163.com

引用本文:

王凤彪, 张嘉易, 丁茹, 李银玉, 李丽丽, 陈松. 超声辅助微弧氧化Ti-13Nb-13Zr合金制备仿生涂层及其断裂力学性能^*[J]. 《材料导报》期刊社, 2017, 31(16): 46-50.
WANG Fengbiao, ZHANG Jiayi, DING Ru, LI Yinyu, LI Lili, CHEN Song. Performance and Fracture Toughening of Biological Coating Prepared by Ultrasonication-assisted Micro-arc Oxidation Technique on Ti-13Nb-13Zr Alloy Surface. Materials Reports, 2017, 31(16): 46-50.

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http://www.mater-rep.com/CN/10.11896/j.issn.1005-023X.2017.016.010 或 http://www.mater-rep.com/CN/Y2017/V31/I16/46

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