Compressive Strength of New Glass Ionomer Cement Technology based Restorative Materials after Thermocycling and Cyclic Loading

Compressive Strength of New Glass Ionomer Cement Technology based Restorative Materials after Thermocycling and Cyclic Loading

The objective of the study was to compare compressive strengths of two glass ionomer-based materials, with and without a light-cured, nano-filled coating, after cyclic loading and thermocycling. To determine compressive strength of new restorative materials over a longer period of time, materials we...

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Bibliographic Details
Published in:Acta stomatologica croatica Vol. 53; no. 4; pp. 318 - 325
Main Authors: Brzović Rajić, Valentina, Ivanišević Malčić, Ana, Bilge Kütük, Zeynep, Gurgan, Sevil, Jukić, Silvana, Miletić, Ivana
Format: Journal Article
Language:English
Published: Croatia University of Zagreb School of Dental Medicine, and Croatian Dental Society - Croatian Medical Association 01-12-2019
University of Zagreb. School of Dental Medicine
Subjects:
Compressive Strength
Glass Ionomer Cements
Hardness Tests
Mastication
Original Scientific Papers
Compressive Strength
Cyclic Loading
Glass Ionomer Cement
Chewing
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Summary:The objective of the study was to compare compressive strengths of two glass ionomer-based materials, with and without a light-cured, nano-filled coating, after cyclic loading and thermocycling. To determine compressive strength of new restorative materials over a longer period of time, materials were analysed under simulated conditions where cyclic loading replicated masticatory loading and thermocycling simulated thermal oscillations in the oral cavity. Four groups of samples (n=7)-(1) Equia Fil (GC, Tokyo, Japan) uncoated; (2) Equia Fil coated with Equia Coat (GC, Tokyo, Japan); (3) Equia Forte Fil (GC, Tokyo, Japan) uncoated; and (4) Equia Forte Fil coated with Equia Forte coat (GC, Tokyo, Japan)-were subjected to cyclic loading (240,000 cycles) using a chewing simulator (MOD, Esetron Smart Robotechnologies, Ankara, Turkey). Compressive strength measurements were performed according to ISO 9917-1:2007, using the universal mechanical testing machine (Instron, Lloyd, UK). Scanning electron microscope (SEM) analysis was performed after thermocycling. There were no statistically significant differences between Equia Fil and Equia Forte Fil irrespective of the coating (p<0.05), but a trend of increasing compressive strength in the coated samples was observed. Coating increases the compressive strength of Equia Fil and Equia Forte Fil, but not significantly.
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ISSN:0001-7019
1846-0410
DOI:10.15644/asc53/4/2