Effect of the Surface Treatment of Commercially Pure Titanium on the Shear Bond Strength

Abstract

Objective: To assess the shear bond strength of an esthetic coating material and a metal subjected to three surface treatments. Methods: Thirty metallic cylinders (5 mm high x 4 mm diameter) were fabricated from machining of commercially pure titanium (CPTi) bars. The cylinders were assigned to three groups (n=10), according to the surface treatment: Group 1: 150-µm aluminum oxide particle air abrasion; Group 2 – Rocatec system (3M/ESPE): 110-µm aluminum oxide particle air abrasion (Rocatec-pre powder) and silica air abrasion (Rocatec-plus powder) + silane (Rocatec-Sil); and Group 3 – CoJet system (3M/ESPE): 30-µm silica particle air abrasion + silane (ESPE Sil). The specimens were fabricated by applying the opaque system (Sinfony Opaco, 3M/ESPE) followed by indirect composite resin (Sinfony, 3M ESPE/USA). After storage in distilled water at 37oC for 24 hours, the specimens were tested in shear strength in a universal testing machine (EMIC, model DL-1000) with a 500 kgf charge cell at 0.5 mm/min crosshead speed. The obtained data (MPa) were subjected to one-way ANOVA and Tukey’s test at 5% significance level. Results: Group 1 (20.01 ± 3.12) was statistically different from Group 2 (27.83 ± 3.02) and Group 3 (26.91 ± 3.65). Groups 2 and 3 did not differ significantly from each other. Conclusion: The surface treatment of CPTi with Rocatec or CoJet produced greater bond strength between CPTi and Sinfony composite resin.