Author:
Nasakina ,Sudarchikova ,Sergienko ,Konushkin ,Sevost’yanov
Abstract
The corrosion resistance of nanostructured nitinol (NiTi) was investigated using long-term tests in solutions simulating physiological fluids at static conditions, reflecting the material structure and metal concentration in the solutions. Mechanical polishing reduced the ion release by a factor of two to three, whereas annealing deteriorated the corrosion resistance. The depassivation and repassivation of nitinol surfaces were considered. We found that nanostructured nitinol might increase the corrosion leaching of titanium into solutions, although the nickel release decreased. Metal dissolution did not occur in the alkaline environment or artificial plasma. A Ni-free surface with a protective 25 nm-thick titanium oxide film resulted from soaking mechanically treated samples of the NiTi wire in a saline solution for two years under static conditions. Hence, the medical application of nanostructured NiTi, such as for the production of medical devices and implants such as stents, shows potential compared with microstructured NiTi.
Subject
General Materials Science,General Chemical Engineering
Reference98 articles.
1. Nikelid Titana, Meditsynsky Material Novogo Pokoleniya [Titanium Nickelide, Medical Material of New Generation];Gunther,2006
2. Biomedical Applications of Shape Memory Alloys
3. Effects of thermal cycling on microstructure and properties in Nitinol
4. Engineering Aspects of Shape–Memory Alloys;Duerig,1990
5. Nitinol medical devices and implants
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