Hydrofluoric acid concentrations: Effect on the cyclic load-to-failure of machined lithium disilicate restorations

•Etched and non-etched ceramic surfaces presented similar fatigue values.•In terms of fatigue, no differences among the HF acid concentrations were found.•Machining-induced flaws were the origins of failure in all groups of specimens. To evaluate the effects of the etching with different hydrofluori...

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Bibliographic Details
Published in:Dental materials 2018-09, Vol.34 (9), p.e255-e263
Main Authors: Prochnow, Catina, Venturini, Andressa Borin, Guilardi, Luís Felipe, Pereira, Gabriel Kalil Rocha, Burgo, Thiago Augusto Lima, Bottino, Marco Cícero, Kleverlaan, Cornelis Johannes, Valandro, Luiz Felipe
Format: Article
Language:English
Subjects:
Acid Etching, Dental - methods
Computer-Aided Design
Crowns
Dental Porcelain - chemistry
Dental Restoration Failure
Dental Stress Analysis
Dentistry
Fatigue
Glass ceramic
Hydrofluoric Acid - chemistry
IPS e.max CAD
Materials Testing
Mechanical cycling
Monolithic crown
Silanes - chemistry
Stress, Mechanical
Surface Properties
Surface treatment
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Summary:•Etched and non-etched ceramic surfaces presented similar fatigue values.•In terms of fatigue, no differences among the HF acid concentrations were found.•Machining-induced flaws were the origins of failure in all groups of specimens. To evaluate the effects of the etching with different hydrofluoric acid (HF) concentrations on the cyclic load-to-failure (CLf) of machined lithium disilicate crowns cemented to dentin analogue material. Pairs of dentin analogue prosthetic preparations and lithium disilicate ceramic crowns with simplified and standardized designs were machined (n=18). The preparations were etched with 10% HF (60s), followed by primer application. The intaglio surface of the ceramic crowns was treated as follows: non-etched (control, CTRL); or etched for 20s with different HF concentrations — 3% (HF3), or 5% (HF5), or 10% (HF10). A silane coating was then applied onto the treated ceramic surfaces, and they were adhesively cemented to the preparations. To perform the fatigue tests (staircase approach), a hemispheric stainless-steel piston (Ø=40mm) applied cyclic loads in the center of the crowns under water (initial load: 720N; step-size: 70N; cycles: 500,000; frequency: 20Hz). Additionally, topographic, fractographic, and fractal analyses were carried out. The fatigue data were analyzed using the Dixon and Mood method. Although the topographic and fractal analyses depicted the action of HF etching altering the superficial complexity and topography, the preponderant topography pattern was established by machining on CAD/CAM. All groups showed similar CLf (in N) (CTRL=805.00±91.23; HF3=781.25±29.87; HF5=755.00±154.49; HF10=833.75±100.74). Etching with different HF acid concentrations did not promote a deleterious effect on the cyclic load-to-failure of machined lithium disilicate crowns.
ISSN:0109-5641
1879-0097
DOI:10.1016/j.dental.2018.06.028