Fracture Resistance of Provisional Crowns Fabricated by Conventional, CAD/CAM, and 3D Printing Techniques
Sakr, O., Mandour, M., Gabal, Z. (2022). Fracture Resistance of Provisional Crowns Fabricated by Conventional, CAD/CAM, and 3D Printing Techniques. EKB Journal Management System, 9(4), 623-630. doi: 10.21608/adjg.2022.136443.1501
Ola A. Sakr; Mona H. Mandour; Zahraa A. Gabal. "Fracture Resistance of Provisional Crowns Fabricated by Conventional, CAD/CAM, and 3D Printing Techniques". EKB Journal Management System, 9, 4, 2022, 623-630. doi: 10.21608/adjg.2022.136443.1501
Sakr, O., Mandour, M., Gabal, Z. (2022). 'Fracture Resistance of Provisional Crowns Fabricated by Conventional, CAD/CAM, and 3D Printing Techniques', EKB Journal Management System, 9(4), pp. 623-630. doi: 10.21608/adjg.2022.136443.1501
Sakr, O., Mandour, M., Gabal, Z. Fracture Resistance of Provisional Crowns Fabricated by Conventional, CAD/CAM, and 3D Printing Techniques. EKB Journal Management System, 2022; 9(4): 623-630. doi: 10.21608/adjg.2022.136443.1501

Fracture Resistance of Provisional Crowns Fabricated by Conventional, CAD/CAM, and 3D Printing Techniques

Al-Azhar Dental Journal for Girls
Article 8, Volume 9, Issue 4, October 2022, Page 623-630  XML PDF (621.96 K)
Document Type: Original Article
DOI: 10.21608/adjg.2022.136443.1501
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Authors
Ola A. Sakr email 1; Mona H. Mandour2; Zahraa A. Gabalorcid 3
1Dentist at Egyptian Ministry of Health, Cairo, Egypt
2Professor of Crowns and Bridges, Faculty of Dental Medicine for Girls, Al-Azhar University, Cairo, Egypt.
3Lecturer of Crowns and Bridges, Faculty of Dental Medicine for Girls, Al-Azhar University, Cairo, Egypt.
Abstract
Purpose: The aim of this study was to compare fracture resistance of provisional restorations fabricated with conventional manual procedure, CAD/CAM milling and 3D Printing techniques. Materials and Methods: one human upper first premolar was prepared and duplicated using epoxy resin to produce twenty one dies. Accordingly, a total of (N=21) provisional crowns were constructed. The Constructed provisional restorations were divided into 3 groups according to the method of construction (n=7 for each group), Group 1: Provisional crowns were constructed using conventional manual technique, Group2: Provisional crowns were constructed using CAD/CAM milling technique, Group3: Provisional crowns were constructed using 3D Printing technique. All Provisional crowns were bonded to their corresponding epoxy resin dies by using CharmTemp ZONE temporary cement and subjected to thermocycling procedure simulating approximately one month of clinical situations Results: Statistical analysis showed that the fracture resistance of CAD/CAM samples (group 2), recorded the statistically significant highest mean fracture resistance value (910.20 ± 118.95), followed by 3D Printing samples (group 3) (720.80 ± 129.57), while the lowest value was recorded for Conventional samples (group 1) (626.71 ± 103.23). ANOVA test showed that there was no significant difference between 3D Printing samples (group 3) and Conventional samples (group 1). Conclusion: CAD/CAM provisional crowns have superior strength than 3D Printing and conventional crowns. 
Keywords
Provisional Restorations; CAD/CAM; 3D Printing; Conventional
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