Veneered Zirconia-Based Restorations Fracture Resistance Analysis
Publication Date
2018
Journal Title
J Prosthodont
Abstract
© 2016 by the American College of Prosthodontists Purpose: To examine the effects of the veneering technique on the fracture resistance of zirconia-based crowns. Materials and Methods: An artificial tooth was prepared with a 1.2 mm heavy chamfer finish line and 8° taper. The prepared tooth was scanned using CAD/CAM technology to fabricate 45 cobalt chromium (CoCr) testing dies. One CoCr die was scanned, and 45 zirconia copings were milled and divided according to the veneering technique into three groups of 15 specimens each: layering veneering (LV) using Vita Vm9, overpressing veneering (OV) using Vita Pm9, and digital veneering (DV) using Vita Triluxe forte. The crowns were cemented onto the testing dies using glass ionomer cement. The specimens were thermocycled (3000 cycles, 5° to 55°) then statically loaded (3.7 mm ball, 0.5 mm/min crosshead speed) until failure. Failed crowns were inspected using a magnifier, and failure patterns were identified. One-way ANOVA and multiple comparison Bonferroni tests were applied for statistical analysis of the results. Results: Means and standard deviations of failure loads were 1200 ± 306 N for the LV group, 857 ± 188 N for the OV group, and 638 ± 194 N for the DV group. The differences in failure loads were statistically significant between all groups (p < 0.05). Failure mode was predominantly cohesive for LV and OV groups, whereas it was predominantly adhesive for the DV group. Conclusions: The LV group was superior to other groups in terms of fracture resistance, while the DV group was inferior to the other groups in the same aspect.
Volume Number
27
Issue Number
7
Pages
651 - 658
Document Type
Article
Status
Faculty
Facility
School of Medicine
Primary Department
Dental Medicine
PMID
DOI
10.1111/jopr.12490