4.5 Article

Corrosion resistance of titanium ion implanted AZ91 magnesium alloy

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JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A
卷 25, 期 2, 页码 334-339

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A V S AMER INST PHYSICS
DOI: 10.1116/1.2699371

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Degradable metal alloys constitute a new class of materials for load-bearing biomedical implants. Owing to their good mechanical properties and biocompatibility, magnesium alloys are promising in degradable prosthetic implants. The objective of this study is to improve the corrosion behavior of surgical AZ91 magnesium alloy by titanium ion implantation. The surface characteristics of the ion implanted layer in the magnesium alloys are examined. The authors' results disclose that an intermixed layer is produced and the surface oxidized films are mainly composed of titanium oxide with a lesser amount of magnesium oxide. X-ray photoelectron spectroscopy reveals that the oxide has three layers. The outer layer which is 10 nm thick is mainly composed of MgO and TiO2 with some Mg(OH)(2). The middle layer that is 50 nm thick comprises predominantly TiO2 and MgO with minor contributions from MgAl2O4 and TiO. The third layer from the surface is rich in metallic Mg, Ti, Al, and Ti3Al. The effects of Ti ion implantation on the corrosion resistance and electrochemical behavior of the magnesium alloys are investigated in simulated body fluids at 37 +/- 1 degrees C using electrochemical impedance spectroscopy and open circuit potential techniques. Compared to the unimplanted AZ91 alloy, titanium ion implantation significantly shifts the open circuit potential (OCP) to a more positive potential and improves the corrosion resistance at OCR This phenomenon can be ascribed to the more compact surface oxide film, enhanced reoxidation on the implanted surface, as well as the increased beta-Mg12Al17 phase. (c) 2007 American Vacuum Society.

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