In vitro corrosion resistance of titanium abutment and different alloys / 中国组织工程研究

ABSTRACT

BACKGROUND:Except for mechanical properties and physical and chemical properties, corrosion resistance testing is necessary for a variety of biomedical materials applied in the oral environment to ensure the biocompatibility of materials. OBJECTIVE:To explore the corrosion resistance of titanium abutment and different titanium aloysin vitro. METHODS:Corrosion environment byin vitroartificial saliva was constructed with pH=6.0 at (37±0.5)℃. Potentiodynamic polarization technique, scanning electron microscope and X-ray diffraction methods were employed to assess the corrosion resistance of titanium aloy, gold aloy, nickel-chromium aloy, and titanium abutment immersed in the artificial saliva for 24 hours. RESULTS AND CONCLUSION:Different aloys had different steady-state potentials, and the range of passivation region was the largest for gold aloy, folowed by titanium abutments and titanium aloys, and the smalest for nickel-chromium aloy. After 24 hours of immersion in the artificial saliva, passivation films appeared on the surface of different materials. under the scanning electron microscope, the nickel-chromium aloy surface showed obvious traces of corrosion and there were a large number of large-diameter deep pits, but no corrosion occurred on the surface of the remaining three kinds of aloys; on the surface of nickel-chromium aloy, the contents of chromium, molybdenum and aluminum were decreased, and the contents of nickel and oxygen were increased, but there were stil no changes on the surface of the remaining aloys. Cr2O3 was found on the surfaceof nickel-chromium aloy, TiO2 was generated on the surface of titanium abutment and titanium aloy, but Au and Pt stil existed in a single phase on the surface of gold aloy. These findings indicate that titanium aloy and titanium abutment have similar corrosion resistance that is inferior to the gold aloy, but better than the nickel-chromium aloy.