Enhanced Mechanical and Surface Performance of Three-Dimensionally Printed Denture Base Resin via Zinc Oxide and Samarium Oxide Nanoparticle Reinforcement
Mohammed A Alsmael, Sabreen Waleed Ibrahim, Mohammed Hussein M. Alsharbaty, Sameh S. Ali, Michael Schagerl

TL;DR
Adding zinc oxide and samarium oxide nanoparticles improves the strength and surface properties of 3D-printed denture materials.
Contribution
This study introduces nanoparticle reinforcement to enhance 3D-printed denture base resins' mechanical and surface properties.
Findings
1 wt.% ZnO and Sm2O3 hybrids significantly improved mechanical properties of 3D-printed denture resins.
Sm2O3 increased surface hydrophilicity while ZnO made surfaces more hydrophobic.
Higher nanoparticle concentrations caused agglomeration and reduced performance.
Abstract
The increasing adoption of digital light processing (DLP) three-dimensional (3D) printing in prosthodontics has enabled the rapid fabrication of denture bases with improved dimensional accuracy and reproducibility. However, the mechanical performance and surface characteristics of 3D-printed denture base resins remain inferior to those of conventional heat-polymerized polymethyl methacrylate (PMMA), limiting their long-term clinical reliability. This study aimed to investigate the effect of incorporating zinc oxide (ZnO) and samarium oxide (Sm2O3) nanoparticles, individually and as hybrid nanofiller systems, on the mechanical and wettability properties of a DLP 3D-printed denture base resin. ZnO and Sm2O3 nanoparticles were incorporated into a photopolymerizable denture base resin at concentrations of 1 and 2 wt.%, producing seven experimental formulations, including a control group. A…
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Taxonomy
TopicsDental materials and restorations · Additive Manufacturing and 3D Printing Technologies · Anatomy and Medical Technology
