RESUMO
PURPOSE: This study evaluated the effect of different loading pistons, made of various materials and with different elastic moduli acting as antagonist material, on stress distribution and fatigue behavior of a CAD/CAM silica-based ceramic. MATERIALS AND METHODS: Discs of CAD/CAM made silica-based ceramic (Nâ¯=â¯60) (VITA MARK II) were divided into six groups (nâ¯=â¯10 per group), according to the test method (M: Monotonic; F: Fatigue) and the antagonist piston material (T: Tungsten; S: Steel; G: Epoxy resin). FT, FS and FG combinations were submitted to mechanical cycling (2â¯×â¯106 cycles, 4â¯Hz, 45â¯N). The bending stress after fatigue were also valuated using Weibull analysis and the parameters η (eta), ß (beta) and the mean time to failure (MTTF) were calculated. Fractographic analysis and Finite Element Analysis (FEA) were performed. Data were analyzed using ANOVA and Tukey's tests (alpha=0.05). RESULTS: MG presented significantly less bending strength (MPa) (75.6) compared to MT (87.8) and MS (84.4) (pâ¯<â¯0.05). Six specimens from FT (MMTF: 8.3â¯×â¯106; ß:0.60; η:5.6â¯×â¯106), four from FS (MMTF: 1.9â¯×â¯106; ß:1.2; η:2.0â¯×â¯106) and one from FG (MMTF: 1.3â¯×â¯106; ß:0.48; η:0.64â¯×â¯106) survived the fatigue test. The stress peak on the tensile surface of S was similar to that of T and both were less than that of G. The failure origins were on the tensile surface. CONCLUSION: The epoxy resin pistons were able to decrease the bending stress, and life expectancy (faster failure) of a silica-based ceramic compared to tungsten and steel.