Purpose: This study investigated shear bond strengths (SBSs) of denture repair materials using different polymerization methods to 3D-printed denture base (DLP) in comparison with auto- polymerized polymethyl methacrylate denture base (PMMA). Materials and Methods: DLP and PMMA disks were fabricated, roughened using #400 silicon carbide abrasive paper, and treated with the primer/bonding of the respective repair material. An auto-polymerized denture repair material (PER) or a light-polymerized (MRB) denture relining material was polymerized on the disks. All specimens were stored in distilled water at 37 °C for 24 h. Half of the specimens underwent thermocycling (5,000 cycles, 5–55 °C; TC). SBS testing was conducted (n=20 per group), and the fracture pattern was analyzed. The SBS data were analyzed using non-parametric Kruskal-Wallis tests and Weibull distributions with the maximum likelihood estimation. Results: MRB specimens showed significantly higher SBS and Weibull characteristic strength values than PER specimens (P < .001), irrespective of the denture base material. No statistical differences were observed in Weibull modulus among the specimens, except PMMA-MRB specimens, which showed the highest values (P < .001). Thermal aging tended to decrease these values; however, no significant differences were observed between the non-TC and TC groups. Adhesive failure was dominantly observed in the specimens, except DLP-MRB specimens, which shifted to cohesive failures within the denture base. Conclusions: The repairability of the DLP specimens was comparable to those of the PMMA specimens. Thus, the denture repair of the DLP denture base could be treated in the same manner as conventional PMMA denture base.
