| Title | Effect of hydroxyapatite thickness on metal ion release from Ti6Al4V substrates |
| Publication Type | Journal Article |
| 1996 |
| Authors | Sousa, SR, Barbosa, MA |
| Journal | BiomaterialsBIOMATERIALS |
| Volume | 17 |
| Issue | 4Oxford, United Kingdom |
| Pagination | 397 - 404 |
| Date Published | 1996/// |
| 01429612 (ISSN) |
| Absorption spectroscopy, Alloys, Aluminum, article, Atomic spectroscopy, balanced salt solution, Bioactive coatings, Biocompatible Materials, Biomaterials, Calcium Compounds, Dissolution, Durapatite, Electric charge, Electrochemical dissolution, Electrochemical impedance spectroscopy, electrochemistry, Electrothermal atomic absorption spectroscopy, Hank balanced salt solution, hydroxyapatite, Ion release, Ions, metal ion, Metal ion release, Metal phosphates, Microscopy, Electron, Scanning, Oxidation, Plasma spraying, potentiometry, priority journal, Spectrophotometry, Atomic, Spectroscopy, Substrates, thickness, Thickness effect, Time Factors, Titanium, Titanium alloys, vanadium |
| The electrochemical dissolution behaviour of Ti6Al4V alloy coated with hydroxyapatite (HA) by plasma spraying was studied in Hank's balanced salt solution (HBSS) and compared with that of polished and grit-blasted passivated surfaces. Two different nominal thicknesses of HA (50 and 200 μm) were used. Taking a polished passivated surface as reference, grit blasting of the substrate increased the electrical charge used in the oxidation of Ti6Al4V alloy at constant potential, as a result of increased surface area. However, only HA coatings with a thickness of 200 μm were capable of reducing the charge to values lower than those measured for polished surfaces. Electrochemical impedance spectroscopy has also shown that only 200 μm thick coatings are effective in reducing the oxidation rate of the substrate. Furthermore, in potentiostatic experiments the 50 μm thick coating detached from the substrate, which did not occur with the 200 μm thick coating. However, after 6 months immersion in HBSS, detachment occurred in some regions of both coatings. No titanium, aluminium or vanadium were detected in solution by electrothermal atomic absorption spectroscopy. These data indicate that HA is an effective barrier to metal ion release, even for the thinner coatings, due to formation of metal phosphates or to incorporation of metal ions in the HA structure.The electrochemical dissolution behaviour of Ti6Al4V alloy coated with hydroxyapatite (HA) by plasma spraying was studied in Hank's balanced salt solution (HBSS) and compared with that of polished and grit-blasted passivated surfaces. Two different nominal thicknesses of HA (50 and 200 μm) were used. Taking a polished passivated surface as reference, grit blasting of the substrate increased the electrical charge used in the oxidation of Ti6Al4V alloy at constant potential, as a result of increased surface area. However, only HA coatings with a thickness of 200 μm were capable of reducing the charge to values lower than those measured for polished surfaces. Electrochemical impedance spectroscopy has also shown that only 200 μm thick coatings are effective in reducing the oxidation rate of the substrate. Furthermore, in potentiostatic experiments the 50 μm thick coating detached from the substrate, which did not occur with the 200 μm thick coating. However, after 6 months immersion in HBSS, detachment occurred in some regions of both coatings. No titanium, aluminium or vanadium were detected in solution by electrothermal atomic absorption spectroscopy. These data indicate that HA is an effective barrier to metal ion release, even for the thinner coatings, due to formation of metal phosphates or to incorporation of metal ions in the HA structure.
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