OWN - Quintessenz Verlags-GmbH CI - Copyright Quintessenz Verlags-GmbH OCI - Copyright Quintessenz Verlags-GmbH TA - Int J Prosthodont JT - The International Journal of Prosthodontics IS - 1942-4426 (Electronic) IS - 0893-2174 (Print) IP - 6 VI - 33 PST - ppublish DP - 2020 PG - 634-640 LA - en TI - Influence of Different Postpolymerization Strategies and Artificial Aging on Hardness of 3D-Printed Resin Materials: An In Vitro Study FAU - Reymus, Marcel AU - Reymus M FAU - Stawarczyk, Bogna AU - Stawarczyk B CN - AB - Purpose: To investigate the influence of different postpolymerization strategies and artificial aging periods on the Martens hardness parameters of 3D-printed resin materials indicated for temporary use. Materials and Methods: Disks made of four 3D-printed resin materials (n = 30 each) were additively manufactured and postpolymerized with three different postpolymerization devices (n = 10 specimens of each material per device). Disks cut from a prefabricated milling material served as a control. The Martens parameters (ie, Martens hardness [HM] and indentation modulus [EIT]) were measured initially and after 14- and 28-day storage periods in 37°C distilled water. The data were statistically analyzed using univariate analysis, Kolmogorov Smirnov test, and nonparametric tests, including Kruskal-Wallis, Mann-Whitney U, and Wilcoxon tests (α = .05). Results: The highest impact on the Martens parameters was exerted by material (HM: ηP 2 = 0.957, EIT: ηp 2 = 0.967, P < .001), followed by postpolymerization device (HM: ηP 2 = 0.557, EIT: ηP 2 = 0.496, P < .001) and duration of water storage (HM: ηP 2= 0.068, EIT: ηP 2= 0.038, P < .001). The values for HM ranged between 108 and 282 N/mm2, and for EIT between 2.89 and 7.73 kN/mm2. The materials 3Delta Etemp and Temp PRINT showed the highest HM and EIT values regardless of the postpolymerization device and water storage duration (P < .001). In contrast, NextDent C&B, followed by Freeprint Temp, showed the lowest HM and EIT values (P < .001). The milled control group Telio CAD ranged between the two lower groups. Conclusion: Postpolymerization strategy has a high impact on the mechanical properties of 3D-printed resin materials. Materials with a higher filler content showed better results regarding the Martens parameters. Such materials might be an alternative to conventional materials for the milling procedure. AID - 875371