Testing the tensile fracture strength tie-wings of different orthodontic ceramic bracket using an Instron machine

Testing the tensile fracture strength tie-wings of different orthodontic ceramic bracket using an Instron machine

Introduction: Newly released products should address the shortcomings of the older ones. Frequent breakages have always been a major drawback when using ceramic brackets. This study assessed the difference in tensile fracture strength at maximum load of tie-wings of different orthodontic ceramic bra...

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Bibliographic Details
Main Authors: Anisa H. AlBadr, Nabeel F. Talic
Format: Article
Language:English
Published: Springer 2023-12-01
Series:Saudi Dental Journal
Subjects:
Fracture strength
Maximum load
Monocrystalline ceramic brackets
Polycrystalline ceramic brackets
Tie-wing fracture
Online Access:http://www.sciencedirect.com/science/article/pii/S1013905223002195
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Summary:Introduction: Newly released products should address the shortcomings of the older ones. Frequent breakages have always been a major drawback when using ceramic brackets. This study assessed the difference in tensile fracture strength at maximum load of tie-wings of different orthodontic ceramic brackets recently available for clinical use. Materials and Methods: In this in-vitro study, four ceramic brackets were examined. Two monocrystalline brackets (CLEAR™, Adanta®, Germany; Inspire ICE™, Ormco®, USA), one polycrystalline bracket (Symtri Clear™, Ormco®, USA), and one clear hybrid bracket (DISCREET™, Adanta®, Germany). A steel ligature wire was placed around the tie-wing and on the Instron machine to apply tension. The mean maximum load (MxL) and fracture strength (FS) was evaluated and recorded. The significance level was set at p ≤ 0.05. Results: Statistical difference in fracture strength of the tie-wing fracture was noted among all four groups. Inspire ICE™ showed the highest maximum load and fracture strength with (202.78 N and 107.3 MPa), followed by Symtri Clear™ (111.99 N and 59.25 MPa). In contrast, CLEAR™ and DISCREET™ showed lower MxL values (79.63 N and 47.01 N). The monocrystalline Inspire ICE™ brackets showed the greatest tie-wing fracture resistance and the hybrid clear ceramic bracket DISCREET™ exposed the least resistance to fracture. Conclusion: Brand (manufacturing specifications) as well the bracket crystalline structure seems to have a direct effect on its tie-wing strength.
ISSN:1013-9052

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