Abstract
Translucent zirconias are promising materials for monolithic prostheses. However, information on their optical behavior after sintering and aging protocols is scarce. The purpose of this in vitro study was to evaluate the color and translucency of zirconia subjected to different sintering temperatures and aging. A total of 180 1.5-mm-thick disks were produced from translucent zirconia blocks: DD cubeX2 white, DD cubeX2 A2 shade, DD Bio ZX2 white (Dental Direkt GmbH), and Lava Plus white (3M ESPE). White and A2 shade disks were made for each zirconia. DD Bio ZX2 and Lava Plus were colored by immersion in dyeing liquids. All disks were divided according to the sintering temperature: 1400 ºC, 1450 ºC, and 1500 ºC (T0). Subsequently, the disks were subjected to an aging protocol in an autoclave for 5 (T1) and 20 hours (T2). The L*a*b* coordinates were measured with a spectrophotometer. ∆E00, ∆L', ∆C', ∆H', and TP were calculated using CIEDE2000, and CR was obtained using CIEXYZ. Repeated measures ANOVA and the Tukey HSD test were used for statistical analysis (α=.05). The 1400 ºC temperature produced the greatest ΔE00 (5.25). A progressive increase in ΔE00 was found after aging (especially in T2), with a reduction in lightness and an increase in saturation in most groups (P<.001). The DD cubeX2 white (DCW) and A2 (DCC) groups presented the highest TP00 values, mainly at 1500°C. The highest CR values were observed in the Lava Plus colored (LPC) group (1400°C) (P<.001). Sintering at a lower temperature than that recommended by the manufacturer can reduce lightness and increase saturation and opacity, especially after aging.
Published Version
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