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Quantitative evaluation of the degradation amount of the silane coupling layer of CAD/CAM resin composites by water absorption

Chunwoo Lee, Satoshi Yamaguchi, Satoshi Imazato

2021Journal of Prosthodontic Research25 citationsDOIOpen Access PDF

Abstract

PURPOSE: Degradation of silane coupling layers by water ingress in computer-aided design/computer-aided manufacturing (CAD/CAM) of resin composites has been reported qualitatively. In this study, we quantitatively evaluated how water absorption of CAD/CAM resin composites affects the silane coupling layer by in vitro and in silico methods. METHODS: A Katana Avencia block (KAB) and an experimental matrix block composed of only a matrix resin were used to evaluate the effect of water immersion for seven days on the elastic modulus. X-ray photoelectron spectroscopy (XPS) with fluorine-labeling of the KAB was performed to evaluate the atomic percentage of F1s, which represents the hydrolysis amount by water immersion. In silico analysis of the three-dimensional model of the KAB was performed to determine the coupling ratios before and after water immersion. RESULTS: The elastic modulus of the KAB was 8.2 GPa before and 6.9 GPa after immersion in water. The atomic percentages of F1s in the after- and before-immersion groups were 14.31% and 11.52%, respectively, suggesting that hydrolysis of the silane coupling layer occurred during water immersion. From in silico analysis of the three-dimensional model of the KAB, the coupling ratio was predicted to be 78.2% before water immersion. After water immersion, the coupling ratio was predicted to be 68.4%. CONCLUSIONS: The in vitro and in silico approaches established in this study were able to predict the silane coupling ratios of CAD/CAM resin composites, and they showed that the silane coupling ratio decreased by water absorption.

Topics & Concepts

Materials scienceComposite materialDegradation (telecommunications)Absorption of waterSilaneLayer (electronics)Coupling (piping)Absorption (acoustics)Resin compositeComposite numberDental materials and restorationsAdditive Manufacturing and 3D Printing TechnologiesEpoxy Resin Curing Processes
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