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BIBTEX RIS

Adhesion behavior of conventional and high‐translucent zirconia: Effect of surface conditioning methods and aging using an experimental methodology

2019; Wiley; Volume: 31; Issue: 4 Linguagem: Inglês

10.1111/jerd.12490

1708-8240

Edwin Ruales‐Carrera, Paulo Francısco Cesar, Bruno Henriques, Márcio C. Fredel, Mutlu Özcan, Cláudıa Ângela Mazıero Volpato,

Bone Tissue Engineering Materials

Abstract Objective Evaluate the adhesive behavior of conventional and high‐translucent zirconia after surface conditioning and hydrothermal aging. Materials and Methods Conventional (ZrC) and high‐translucent zirconia (ZrT) specimens were divided into six groups: without surface treatment (ZrC and ZrT), air‐borne particle abrasion with 50‐μm Al 2 O 3 sized particles (ZrC‐AO and ZrT‐AO), and tribochemical treatment with 30‐μm silica modified Al 2 O 3 sized particles (ZrC‐T and ZrT‐T). Zirconia specimens were treated using an MDP‐containing universal adhesive and bonded to two resins blocks with an adhesive luting cement. Microbar specimens with cross‐sectioned areas of 1 mm 2 were achieved. Half of the microbars were subjected to hydrothermal aging. Bond strength was evaluated by microtensile bond strength test and statistically evaluated by the Weibull analysis. Results Roughness of the ZrC‐AO and ZrT‐AO groups were statistically higher. Bond strength analysis revealed higher bond strength for ZrC‐AO and ZrC‐T groups compared to ZrT‐AO and ZrT‐T, respectively. Mixed failure was the most frequent for the mechanically treated groups, while no cohesive failures were obtained. Conclusion Lower values of bond strength were obtained for the mechanically treated high‐translucent zirconia groups when compared to their conventional zirconia counterparts. Mechanical surface treatment significantly improved the bond strength to conventional and high‐translucent zirconia. Clinical Significance Mechanical surface treatment (air‐borne particle abrasion or tribochemical treatment) associated with the use of universal adhesives containing MDP could provide a durable bonding to conventional and high‐translucent zirconia.