Influence of silane and heated silane on the bond strength of lithium disilicate ceramics - An in vitro study
Abstract
Objectives: To evaluate the effect of silane application and silane heat treatment on lithium-disilicate ceramic when bonded to composite resin.
Methods: Twelve blocks of lithium-disilicate (LD) ceramic were fabricated and bonding surfaces were etched using 9.5% hydrofluoric acid (90 seconds). Three experimental groups resulted from the various surface treatment combinations, which included, no silane application (NS) (controls), silane application (S) and silane heat treatment (HS) (100°C for 5 minutesutes). Ceramic and composite resin blocks were bonded using an adhesive resin and light cured restorative composite as a luting agent, under standard conditions. A total of 90 specimen sticks (8 x 1mm²) were subjected to micro-tensile bond strength testing. The means of micro-tensile bond strength (µ-tbs) of the study groups were analyzed using t-test and ANOVA. The tested specimens were analyzed for mode of failure using scanning electron microscopy (SEM).
Results: The highest µ-tbs value (42.6±3.70 MPa) was achieved for LD ceramics with heat-dried silane. Both silane application and heat treatment of silane resulted in significant (p<0.05) improvements in micro-tensile bond strength of LD ceramics when bonded to resin composite.
Conclusions: The application of silane and its heat treatment showed significant improvement in bond strength of lithium disilicate ceramic when bonded to composite.
doi: http://dx.doi.org/10.12669/pjms.323.9851
How to cite this:Abduljabbar T, AlQahtani MA, Al-Jeaidi Z, Vohra F. Influence of silane and heated silane on the bond strength of lithium disilicate ceramics - An in vitro study. Pak J Med Sci. 2016;32(3):550-554. Â doi: http://dx.doi.org/10.12669/pjms.323.9851
This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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