钛在人工唾液中的等离子体电解氧化涂层的稳定性。

Stability of plasma electrolytic oxidation coating on titanium in artificial saliva.

机构信息

Departamento de Ciencia de Materiales, Facultad de Ciencias Químicas, Universidad Complutense, Madrid, Spain.

出版信息

J Mater Sci Mater Med. 2013 Jan;24(1):37-51. doi: 10.1007/s10856-012-4787-z. Epub 2012 Oct 17.

Abstract

Bioactive PEO coating on titanium with high Ca/P ratio was fabricated and characterized with respect to its morphology, composition and microstructure. Long-term electrochemical stability of the coating and Ti(4+) ion release was evaluated in artificial saliva. Influence of the lactic acid and fluoride ions on corrosion protection mechanism of the coated titanium was assessed using AC and DC electrochemical tests. The PEO-treated titanium maintained high passivity in the broad range of potentials up to 2.5 V (Ag/AgCl) for up to 8 weeks of immersion in unmodified saliva and exhibited Ti(4+) ion release <0.002 µg cm(-2) days(-1). The high corrosion resistance of the coating is determined by diffusion of reacting species through the coating and resistance of the inner dense part of the coating adjacent to the substrate. Acidification of saliva in the absence of fluoride ions does not affect the surface passivity, but the presence of 0.1 % of fluoride ions at pH ≤4.0 causes loss of adhesion of the coating due to inwards migration of fluoride ions and their adsorption at the substrate/coating interface in the presence of polarisation.

摘要

制备了具有高 Ca/P 比的钛基生物活性 PEO 涂层，并对其形貌、组成和微观结构进行了表征。在人工唾液中评估了涂层的长期电化学稳定性和 Ti(4+)离子释放。使用交流和直流电化学测试评估了乳酸和氟离子对涂层钛腐蚀保护机制的影响。在未经修饰的唾液中浸泡长达 8 周的时间内，PEO 处理的钛在高达 2.5 V（Ag/AgCl）的宽电位范围内保持高钝化性，Ti(4+)离子释放<0.002 µg cm(-2) days(-1)。涂层的高耐腐蚀性是由反应物质通过涂层的扩散和与基体相邻的涂层内层致密部分的阻力决定的。在没有氟离子的情况下，唾液的酸化不会影响表面钝化性，但在 pH ≤4.0 时存在 0.1%的氟离子会由于氟离子向内迁移及其在极化存在时在基体/涂层界面处的吸附而导致涂层附着力丧失。

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钛在人工唾液中的等离子体电解氧化涂层的稳定性。

Stability of plasma electrolytic oxidation coating on titanium in artificial saliva.

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