Adhesive bond of veneering composites on various metal surfaces using silicoating, titanium-coating or functional monomers

Abstract

Objectives . This study compared the shear bond strength (SBS) between veneering composites and titanium (grade 1), a cobalt–chromium-alloy and a high precious-alloy, which were pretreated using silicoating systems, functional monomers or an experimental titanium-dioxide coating system. Method . The specimens were sized to rectangular plates of 20×10×2 mm 3 ( l , w , h ) and a composite cylinder (height of 4 mm, diameter 5 mm) was axially polymerized to the middle of the plates. After aging (24 h or 150 d storage in distilled water at 37 °C, or thermal-cycling: 6000×5°/55 °C) the SBS was determined. Results . Independent of the type of metal and the conditioning/coating techniques the lowest SBSs were found after thermal-cycling. Titanium . The SBS of the silica coating systems and the functional monomers did not differ statistically on titanium. However, the titanium-dioxide coating method had significantly higher values than the other methods. Cobalt–chromium . The highest mean values were observed with the titanium-dioxide coating system and the phosphate acid ester. Precious alloy . No statistical significant different SBS was found for the silicoating and the titanium-dioxide coating methods, while the functional monomers were statistically significant (lower) different to both systems. Conclusion . Generally, the titanium-dioxide coating system achieved the highest SBS under different aging conditions and on all three different metal-surfaces.