The effect of different cleaning agents and resin cement materials on the bond strength of contaminated zirconia

Abstract

The purpose of this study was to examine the effect of different cleaning methods and resin cements on the shear bond strength (SBS) of contaminated zirconia. A total of 92 disc-shaped zirconia specimens were contaminated with different procedures. Then, the specimens were grouped according to cleaning methods and resin cements: no cleaning + Variolink Esthetic DC (CNV), no cleaning + Panavia V5 (CNP), sandblasted + Variolink Esthetic DC (SBV), sandblasted + Panavia V5 (SBP), Ivoclean + Variolink Esthetic DC (ICV), Ivoclean + Panavia V5 (ICP), Katana Cleaner + Variolink Esthetic DC (KCV), and Katana Cleaner + Panavia V5 (KCP). Following an aging protocol in a 37 degrees C for 1 week, SBS analysis was performed with a universal test machine. For the surface topography and elemental analysis, scanning electron microscopy and energy-dispersive X-ray spectroscopy (EDS) were used. Significance was evaluated as p < .05 and p < .01. The highest SBS results were found in the SBP group, showing a statistically significant difference from all other groups (p < .05). For the same cleaning method, Panavia V5 showed statistically significantly higher SBS values than Variolink Esthetic DC (p < .01), except the CNP-CNV (p = .880) and KCP-KCV (p = .082) groups. The most detected surface elements by EDS were Zr, O, C, and N, respectively. The contaminated zirconia surfaces must be cleaned for successful adhesion. The use of phosphate-containing adhesives in combination with sandblasting will increase the adhesion strength, and universal cleaning agents can be a good alternative to sandblasting.