Title of article
Surface Micro-Hardness and Wear Resistance of a Self-Adhesive Flowable Composite in Comparison to Conventional Flowable Composites
Author/Authors
Azizi ، Fateme Department of Operative Dentistry - Dental Materials Research Center, Faculty of Dentistry - Babol University of Medical Sciences , Ezoji ، Fariba Dental Materials Research Center, Health Research Institute - Babol University of Medical Sciences , Khafri ، Soraya Department of Social Medicine and Health - Faculty of Medicine - Babol University of Medical Sciences , Esmaeili ، Behnaz Dental Materials Research Center, Health Research Institute - Babol University of Medical Sciences
From page
1
To page
7
Abstract
Objectives: The durability of composite restorations is directly affected by the mechanical properties of the composite. The aim of this study was to evaluate the hardness and wear resistance of self-adhesive flowable composite (SAF) in comparison with conventional flowable composites. Materials and Methods: In this in vitro study, 50 composite specimens were prepared in brass molds with 10mm ×10mm ×2mm and divided into five groups (n=10). Specimens included three conventional flowable composites (Grandio flow, Filtek flow and Admira fusion flow), one self-adhering flowable composite (SAF, Vertise flow) and a microhybrid composite (filtek z250). After polishing, the micro-hardness of the specimens was measured in a Vickers hardness device, and the specimens were then subjected to 5000, 10000, 20000, 40000, 80000 and 120000 wear cycles in a wear tester. One-way ANOVA/Games-Howell, Kruskal Wallis, and Friedman tests were used for statistical analysis. The significance level was set at P 0.05. Results: The surface micro-hardness of the SAF was significantly lower than that of the microhybrid composite (P=0.01). There was no significant difference between the surface hardness of the different tested flowable composites (P 0.05). Also, the wear resistance of the studied composites was not significantly different in various cycles (P 0.05). Conclusion: Based on our results, SAF would not be an ideal substitute for conventional flowable composites in high-stress areas.
Keywords
Dental Restoration Wear , Flowable Hybrid Composite
Journal title
Frontiers in Dentistry
Journal title
Frontiers in Dentistry
Record number
2767321
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