Effect of printing orientation on the fracture strength of additively manufactured 3-unit interim fixed dental prostheses after aging

•Printing orientation affects the fracture strength of 3D-printed interim fixed partial dentures.•Fabrication method does not affect the failure type of interim fixed partial dentures. To evaluate the effect of printing orientation on the fracture strength of 3-unit interim fixed dental prostheses f...

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Bibliographic Details
Published in:Journal of dentistry 2022-09, Vol.124, p.104155-104155, Article 104155
Main Authors: Diken Turksayar, Almira Ada, Donmez, Mustafa Borga, Olcay, Emin Orkun, Demirel, Münir, Demir, Esra
Format: Article
Language:English
Subjects:
Additive manufacturing
Aging
Aging (materials)
CAD
CAM
Chi-square test
Cobalt
Computer aided design
Computer aided manufacturing
Dentistry
Fracture strength
Hypotheses
Interim restoration
Lasers
Manufacturers
Manufacturing
Mechanical properties
Orientation effects
Polymerization
Polymethylmethacrylate
Printing
Printing orientation
Prostheses
Prosthetics
Rapid prototyping
Resins
Software
Tessellation
Thermomechanical aging
Three dimensional printing
Variance analysis
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Summary:•Printing orientation affects the fracture strength of 3D-printed interim fixed partial dentures.•Fabrication method does not affect the failure type of interim fixed partial dentures. To evaluate the effect of printing orientation on the fracture strength of 3-unit interim fixed dental prostheses fabricated by using additive manufacturing and to compare with those fabricated by subtractive manufacturing after thermomechanical aging. A 3-unit fixed dental prosthesis was designed by using a dental design software (exocad DentalCAD 2.2 Valetta) in standard tessellation language (STL) format. This STL file was exported into a nesting software (PreForm) and 3-unit interim fixed dental prostheses with 5 different orientations (0°, 30°, 45°, 90°, and 150°) were printed by using a 3-dimensional (3D) printing interim resin (Temporary CB) (n = 10). The same STL file was also used to mill polymethymethacrylate (DuoCAD) 3-unit interim fixed dental prostheses as the control group (n = 10). All specimens were cemented onto cobalt-chromium test models representing a maxillary first premolar and first molar tooth with a long-term temporary cement (DentoTemp), and subjected to thermomechanical aging (120,000 cycles, 1.6 Hz, 50 N, 5–55 °C). Then, all specimens were loaded until fracture by using a universal tester. The data were analyzed with nonparametric 1-way analysis of variance (Kruskal-Wallis) and Dunn's tests (α = 0.05). Additively manufactured specimens printed with 90° showed the lowest fracture strength values (P≤.048). However, the difference between specimens printed with 45° and 90° was nonsignificant (P>.05). Milled 3-unit interim fixed dental prostheses withstood significantly higher loads than 3-unit interim fixed dental prostheses printed with 45° and 150° (P≤.012). In addition, specimens printed with 0° showed higher fracture strength than the specimens printed with 45° (P=.01). Specimens printed with 0° and 30° presented similar fracture strength values with milled (P≥.057) and 150° printed (P>.05) specimens. Printing orientation had a significant effect on the fracture strength of 3-unit interim fixed dental prostheses. Among the additively manufactured samples, those printed with 0° showed similar fracture strength values with the subtractively manufactured samples. Three-unit interim fixed dental prostheses fabricated with 0° and 30° using the 3D printing interim resin tested may be alternatives to milled PMMA in terms of fracture strength.
ISSN:0300-5712
1879-176X
DOI:10.1016/j.jdent.2022.104155