• Godinho, J.
• Jardim, L.
• Amorim, M.
• Pinto, R.
• Maura, Crj

Abstract

Introduction: This cross-sectional study aimed to analyze the precision and trueness of dental models produced using 2 rapid prototyping 3-dimensional printers. Methods: A digital crowded maxillary arch with a T-shaped base and 2 hemispheres of 2.5 mm radius was printed 10 times with a stereolithography apparatus (SLA) and digital light processing (DLP) in the highest precision and minimum layer thickness (z-resolution) mode. The copies were scanned using the D710 3Shape desktop scanner and assessed for precision and trueness via arch superimpositions and hemisphere measurements. Mann-Whitney U tests were used to compare trueness and precision among printers. Hemisphere radius was compared with the reference measurement and between 3-dimensional printers using 1 sample and independent Student t tests, respectively (alpha = 0.05). Results: The root mean square values of arch superimpositions showed statistically significant differences between the 2 techniques, both for precision (P = 0.011): SLA (46.8 mu m +/- 13.5); DLP (111.1 mu m +/- 71.9), and trueness (P = 0.015): SLA (61.1 mu m +/- 9.8); DLP (99.8 mu m +/- 47.2). The color map model analysis indicated greater distortion on premolar and molar surfaces, with a higher range of contraction on the SLA and both contraction and expansion on the DLP. Anterior and posterior hemisphere radius registered increased values with DLP (1.7% and 0.49%) and reduced values with SLA (0.6% and 0.7%); however, only the anterior SLA hemispheres revealed a significant decrease from the reference value (P = 0.037). Conclusions: In this study, the SLA printer was significantly different from the DLS printer, with the highest precision and trueness.

Topics

• surface
• dynamic light scattering
• vat photopolymerization