Trueness, Flexural Strength, and Surface Properties of Various Three-Dimensional (3D) Printed Interim Restorative Materials after Accelerated Aging

• Published in: Polymers Vol. 15; no. 14; p. 3040
• Main Authors: Alageel, Omar, Alhijji, Saleh, Alsadon, Omar, Alsarani, Majed, Gomawi, Abdurabu Abdullah, Alhotan, Abdulaziz
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 14.07.2023; MDPI
• Subjects: 3-D printers; 3D printing; Accuracy; additive manufacturing; Aging; Aging (materials); Analysis; Composite materials; Diamond pyramid hardness; Flexural strength; Hypotheses; interim restorations; Laboratories; Manufacturers; Manufacturing; Mechanical properties; Modulus of rupture in bending; Physical properties; Polymerization; Polymethyl methacrylate; Resins; restorative dentistry; Statistical analysis; Surface properties; Surface roughness; temporary restorations; Thermal cycling; Three dimensional printing; Germany; Netherlands; United Kingdom > UK; Australia; United States > US; China; restorative dentistry; additive manufacturing; aging; 3D printing; interim restorations; temporary restorations
• ISSN: 2073-4360; 2073-4360
• DOI: 10.3390/polym15143040

Various 3D printing systems for interim fixed dental restorations are commercially available. This study aimed to evaluate the physical and mechanical properties of 3D printed resins used for interim restorations fabricated using various 3D printing systems and printing angulations after accelerated aging. Three different interim restorative materials were provided and printed using their specific 3D printing systems (A: NextDent; B: Asiga; C: Nova3D), and the testing specimens from each system were printed at two building angles: (1) 0° and (2) 90°. The six groups were A1, A2, B1, B2, C1, and C2, with sixteen specimens per group. Half of the specimens in each group (N = 8) were subjected to accelerated aging, including simulated brushing and thermocycling. Three-point bending, surface roughness, and Vickers microhardness tests were performed. Two-way ANOVA and Fisher's multiple tests were used for statistical analyses. The most accurate systems were found in groups C1 and C2 for length, A1 and B1 for width, and A1 and C1 for height. The specimen trueness only changed after aging for groups B1, B2, and C1. The flexural strength of the A2 group (151 ± 7 MPa) before aging was higher than that of the other groups, and the strength decreased after aging only for groups A1 and A2. The flexural strength, microhardness, and surface roughness of the 3D printed interim resins after aging varied depending on the material, system used, and printing angle.