Fracture strength test of digitally produced ceramic-filled and unfilled dental resin restorations via 3d printing: An study.

Background: Purpose of this study was to investigate the mechanical efficiency of 3D-printed permanent and provisional implant cemented fixed bridges produced via CAD/CAM technology using an interim and a permanent ceramic filled hybrid material.

Material And Methods: Two groups with twenty specimens each were designed and 3D-printed via digital light processing technology (DLP). A fracture strength test was performed. Statistical analysis was performed (>0.05) for impression distance and force.

Results: For the fracture resistance and impression distance no significant difference ( = 0.643) were detected. The specimens of interim resin showed a mean value of 365.90 ± 86.67 N. Whereas specimens of permanent ceramic filled hybrid material showed a mean value of 363.45 ± 87.57 N.

Conclusions: In this study 3D-printed ceramic filled hybrid material and interim resin based on methacrylic acid esters showed an acceptable resistance to bite forces with no differences in fracture mechanism. CAD-CAM, dental resin, 3D printing.