Flexural strength and translucency of barium‐silicate‐filled resin nanoceramics for additive manufacturing

• Published in: Journal of esthetic and restorative dentistry Vol. 36; no. 3; pp. 445 - 452
• Main Authors: Park, Geun‐Taek, Ko, Kyung‐Ho, Huh, Yoon‐Hyuk, Park, Chan‐Jin, Cho, Lee‐Ra
• Format: Journal Article
• Language: English
• Published: Hoboken, USA John Wiley & Sons, Inc 01.03.2024; Blackwell Publishing Ltd
• Subjects: Additive manufacturing; Barium; barium silicate; Ceramics; Dental enamel; Dental restorative materials; flexural strength; Mechanical properties; resin nanoceramics; Slurries; translucency; barium silicate; additive manufacturing; translucency; flexural strength; resin nanoceramics
• ISSN: 1496-4155; 1708-8240
• DOI: 10.1111/jerd.13129

Objective This in vitro study aimed to evaluate the flexural strength (FS) and translucency parameter (TP) of resin nanoceramics (RNCs) with barium silicate for additive manufacturing. Materials and Methods An RNC slurry was prepared by mixing a barium silicate filler and resin monomer. For the FS tests, specimens with three filler contents (0, 50, and 63 wt%) were designed according to ISO6872 for dental ceramics and ISO10477 for dental polymers. These specimens were then formed into discs with thicknesses of 1 and 2 mm for TP measurement. Results In the specimens prepared according to ISO6872, the FS increased significantly depending on the filler content. However, in the case of ISO10477, there was no significant difference between the FSs of the specimens with 0 and 50 wt% filler contents. The increase in thickness affected translucency, and the lowest translucency was obtained at a filler content of 63 wt%. The filler distribution was dense in the specimen with 63 wt% filler and uniform but relatively sparse in the specimen with 50 wt% filler. More voids were observed in the specimen with 63 wt% filler. The thickness and filler content of the specimen affected its TP. The TP of the specimen with 63 wt% filler was similar to that of human enamel. Conclusion The FS was significantly higher at a filler content of 63 wt%. The lowest translucency was obtained at a filler content of 63 wt% for all tested thicknesses. Clinical Significance Increasing the filler content was advantageous for the mechanical properties of the RNCs. A high filler content led to low translucency in the RNCs. Therefore, the esthetics of human teeth can be reproduced if layering according to the filler content is performed in areas where esthetic characteristics are required.