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Influence of Polymerization Postprocessing Procedures on the Accuracy of Additively Manufactured Dental Model Material

Delaram Mostafavi, Mohammed M. Methani, Wenceslao Piedra‐Cascón, Amirali Zandinejad, Wael Att, Marta Revilla‐León

2021The International Journal of Prosthodontics16 citationsDOI

Abstract

PURPOSE: To measure the influence of postpolymerization condition (dry and water-submerged) and time (2, 10, 20, and 40 minutes) on the accuracy of additively manufactured model material. MATERIALS AND METHODS: A bar standard tessellation language (STL) file was used to manufacture all the resin specimens using a 3D printer. Two groups (n = 80 each) were created based on postpolymerization condition: dry (D group) and water-submerged (W group). Each group was then divided into four subgroups (D1 to D4 and W1 to W4; n = 20 each), which were each assigned a postpolymerizing time (2, 10, 20, and 40 minutes). The specimens' dimensions were measured using a low-force digital caliper. The volume was calculated as follows: V = l × w × h. Shapiro-Wilk test revealed that the data were not normally distributed. Data were analyzed using Kruskal-Wallis and pairwise Mann-Whitney U tests (α = .05). RESULTS: Significant differences in length, width, height, and volume were found among the subgroups (P < .0018). In all groups, the width dimension (x-axis) presented less accuracy compared to height (z-axis) and length (y-axis) (P < .0018). The D2 and D4 subgroups obtained the closest dimensions to the virtual design, and there were no significant differences between these subgroups (P < .0018). The dry condition showed higher manufacturing accuracy than the water-submerged condition. In the water-submerged subgroups, the highest accuracy was obtained in the W2 and W4 subgroups (P < .0018). CONCLUSIONS: Postpolymerization condition and time influenced the accuracy of the material tested. The dry postpolymerization condition with times of 10 and 40 minutes obtained the highest accuracy.

Topics & Concepts

CalipersMathematicsDimension (graph theory)Volume (thermodynamics)Significant differenceMaterials scienceGeometryStatisticsPhysicsCombinatoricsQuantum mechanicsDental materials and restorationsAdditive Manufacturing and 3D Printing TechnologiesAnatomy and Medical Technology