Title :
Tribocorrosion and antibacterial behaviour of TiO2 coatings obtained by PEO technique
Author :
de Viteri, Virginia SaÌenz ; Igartua, Amaya ; Bayon, Raquel ; Barandika, Gotzone ; PeÌrez-Jorge, Conchita ; Esteban, Jairo ; Martinez, Manuel
Author_Institution :
Tribology Unit, IK4-TEKNIKER, Eibar, Spain
Abstract :
Ti6Al4V (grade 5) is the implant material of choice to be used in stems of hip joint implants due to its good mechanical properties, biocompatibility and its good corrosion resistance. However, it presents poor wear resistance. This effect with the exposure of biomaterial to the body fluids that induce corrosion damage lead to irreversible material degradation, called tribocorrosion process. Another problem present in prostheses is the high risk of bacterial infection. In this work, Plasma Electrolytic Oxidation technique was used to develop TiO2 coatings with high wear resistance and antibacterial properties were developed. Microstructural and chemical characterization has been carried out. Tribocorrosion behavior was analyzed in simulated body fluid, and bacterial adhesion study was performed.
Keywords :
adhesion; aluminium alloys; antibacterial activity; biomedical materials; coatings; corrosion; oxidation; prosthetics; titanium alloys; tribology; vanadium alloys; wear resistance; PEO; Ti6Al4V; TiO2; antibacterial behaviour; bacterial infection; biomaterial; corrosion damage; hip joint implants; implant material; irreversible material degradation; plasma electrolytic oxidation; tribocorrosion; wear resistance; Antibacterial activity; Coatings; Immune system; Implants; Oxidation; Surface treatment; Titanium; Plasma Electrolytic Oxidation; iodine; titanium;
Conference_Titel :
Medical Measurements and Applications (MeMeA), 2014 IEEE International Symposium on
Conference_Location :
Lisboa
Print_ISBN :
978-1-4799-2920-7
DOI :
10.1109/MeMeA.2014.6860074
