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Investigation on the Biaxial Flexural Strength of Universal Shade Resin-Based Composites.

Authors :
Sakuma K
Horie T
Kishimoto T
Maesako M
Tomoda S
Fujitani M
Tsujimoto A
Source :
Polymers [Polymers (Basel)] 2024 Jun 28; Vol. 16 (13). Date of Electronic Publication: 2024 Jun 28.
Publication Year :
2024

Abstract

The biaxial flexural strength of universal shade and conventional dental resin-based composites before and after alkaline degradation was investigated. Disk samples were prepared from these resin-based composites, and some of the specimens were immersed in 0.1 M NaOH solution to create deteriorated samples. The biaxial flexural strength of the samples before and after the alkaline degradation test was measured and statistically tested. The fracture surfaces after the biaxial flexural test were observed using a scanning electron microscope. The results showed that the biaxial flexural strength of the paste-type universal shade resin-based composite before alkaline degradation was significantly (19%) higher than that of the conventional type, but no difference was observed between the materials after alkaline degradation. On the other hand, the biaxial flexural strength of the flowable universal shade resin-based composites was significantly (around 35%) lower than that of the conventional composite, with or without degradation. Although, for paste-type materials, the biaxial flexural strength of universal shade resin-based composites was higher than that of conventional resin-based composites before alkaline degradation, after degradation the two materials showed similar values. For flowable materials, the biaxial flexural strength of universal shade resin-based composites was lower than that of conventional resin-based composites regardless of the presence or absence of degradation processes. These results suggest that some caution should be used when deciding whether to use flowable universal shade resin-based composite to fill a cavity.

Details

Language :
English
ISSN :
2073-4360
Volume :
16
Issue :
13
Database :
MEDLINE
Journal :
Polymers
Publication Type :
Academic Journal
Accession number :
39000708
Full Text :
https://doi.org/10.3390/polym16131853