Repair bond strength of resin composite to bilayer dental ceramics
10.4047/jap.2018.10.2.101
- Author:
Ayse Seda ATAOL
1
;
Gulfem ERGUN
Author Information
1. Department of Prosthodontic, Faculty of Dentistry, Mersin University, Mersin, Turkey. sedaataol@gmail.com
- Publication Type:Original Article
- Keywords:
Bilayer CAD/CAM ceramics;
Chipping, Bilayer fracture;
Repair bond strength;
Surface treatments
- MeSH:
Ceramics;
Glass;
Water
- From:The Journal of Advanced Prosthodontics
2018;10(2):101-112
- CountryRepublic of Korea
- Language:English
-
Abstract:
PURPOSE: The purpose of this study was to investigate the effect of various surface treatments (ST) on the shear bond strength of resin composite to three bilayer dental ceramics made by CAD/CAM and two veneering ceramics. MATERIALS AND METHODS: Three different bilayer dental ceramics and two different veneering ceramics were used (Group A: IPS e.max CAD+IPS e.max Ceram; Group B: IPS e.max ZirCAD+IPS e.max Ceram, Group C: Vita Suprinity+Vita VM11; Group D: IPS e.max Ceram; Group E: Vita VM11). All groups were divided into eight subgroups according to the ST. Then, all test specimens were repaired with a nano hybrid resin composite. Half of the test specimens were subjected to thermocycling procedure and the other half was stored in distilled water at 37℃. Shear bond strength tests for all test specimens were carried out with a universal testing machine. RESULTS: There were statistically significant differences among the tested surface treatments within the all tested fracture types (P < .005). HF etching showed higher bond strength values in Groups A, C, D, and E than the other tested ST. However, bonding durability of all the surface-treated groups were similar after thermocycling (P>.00125). CONCLUSION: This study revealed that HF etching for glass ceramics and sandblasting for zirconia ceramics were adequate for repair of all ceramic restorations. The effect of ceramic type exposed on the fracture area was not significant on the repair bond strength of resin composites to different ceramic types.
