Abstract
Objective This study aims to evaluate the influence of different air-abrasion pressures and subsequent heat treatment on the flexural strength, surface roughness, and crystallographic phases of highly translucent partially stabilized zirconia (Y-PSZ), and on the tensile bond strength of resin cement to Y-PSZ.Methodology Fully sintered zirconia specimens were ground with SiC paper (control) and/or air-abraded with 50 µm particles of alumina at 0.1, 0.15, 0.2, or 0.3 MPa or left as-sintered. After air-abrasion at 0.2 MPa (0.2AB), additional specimens were then heated to 1500°C, and held for one hour at this temperature (0.2AB+HT1h). Flexural strength and surface roughness were evaluated. Crystalline phase identification was also carried out using X-ray diffraction. Bonded zirconia specimens with self-adhesive resin cement were stored in distilled water at 37°C for 24 h, either with or without aging (thermal cycling 4-60°C/20000). Results were analyzed statistically by ANOVA and Tukey-Kramer tests.Results The flexural strength decreased with the increase in air-abrasion pressure, while in contrast, the surface roughness increased. The lowest flexural strength and the highest roughness value were found for the 0.2AB and 0.3AB groups, respectively. All groups contained cubic-, tetragonal ( t )-, and rhombohedral ( r )-ZrO2 phases with the exception of the as-sintered group. Upon increasing the air-abrasion pressure, the relative amount of the r -ZrO2 phase increased, with a significant amount of r -ZrO2 phase being detected for the 0.2AB and 0.3AB groups. The 0.2AB+HT1h group exhibited a similar flexural strength and t -ZrO2 phase content as the as-sintered group. However, the 0.2AB group showed a significantly higher tensile bond strength (p<0.05) than the 0.2AB+HT1h group before and after aging.Conclusion Micromechanical retention by alumina air-abrasion at 0.2 MPa, in combination with chemical bonding of a resin to highly translucent Y-PSZ using a MDP-containing resin cement may enable durable bonding.
Highlights
All-ceramic dental restoration systems have become increasingly popular due to their good esthetics and biocompatibilities compared with metalporcelain restorations
The lowest flexural strength and the highest roughness value were found for the 0.2AB and 0.3AB groups, respectively
Both the flexural strength and the surface roughness were significantly influenced by the surface condition (p
Summary
All-ceramic dental restoration systems have become increasingly popular due to their good esthetics and biocompatibilities compared with metalporcelain restorations. As zirconia and alumina have different refraction indices, the introduction of alumina can decrease light transmission, due to which the 0.05 wt% alumina-containing Y-TZP is more translucent than its 0.25 wt% equivalent. The most recent strategy to improve the translucency of zirconia is to increase the significant cubic (c) phase in the zirconia structure.. The most recent strategy to improve the translucency of zirconia is to increase the significant cubic (c) phase in the zirconia structure.2 This has been achieved using a higher yttria content (4-6 mol%) to produce partially stabilized zirconia (Y-PSZ).. This has been achieved using a higher yttria content (4-6 mol%) to produce partially stabilized zirconia (Y-PSZ).3 This Y-PSZ is isotropic in different crystallographic direction, thereby decreasing the light scattering that occurs at grain boundaries, and rendering this material more translucent. The most recent strategy to improve the translucency of zirconia is to increase the significant cubic (c) phase in the zirconia structure. This has been achieved using a higher yttria content (4-6 mol%) to produce partially stabilized zirconia (Y-PSZ). This Y-PSZ is isotropic in different crystallographic direction, thereby decreasing the light scattering that occurs at grain boundaries, and rendering this material more translucent.
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