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KMID : 1035320220490030087
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Korean Society for Dental Materials
2022 Volume.49 No. 3 p.87 ~ p.96
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Effect of various surface treatments by the sol-gel method on the bond and flexural strengths of zirconia-porcelain
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Sim Jae-Hoon
Hong Min-Ho
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Abstract
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This study investigates the effect of a silica coating using the sol-gel method on the bonding between zirconia and porcelain. The specimens were manufactured by precise machining in accordance with the international standard (ISO 9693:2019) using commercially available zirconia (IPS-E-max-ZirCAD). The specimens were then classified into an untreated group (control), and 50 ¥ìm sandblasted, 110 ¥ìm sandblasted, 0.5 mol% sol-gel, and 0.25 mol% sol-gel treated groups. The control group was subjected to grinding treatment only, the sandblasted group used aluminum oxide, and the sol-gel group was impregnated with the test solution, dried, and sintered according to the manufacturer¡¯s instructions. The sintered specimen underwent a grinding process, and after being layered on the zirconia specimen using a dedicated mold, it was fired according to the manufacturer's instructions. In this study, the strength was measured using a universal testing machine by applying a load until fracture occurred at the center of the specimen. Comparison of the results for the poor bonding between the initial zirconia and porcelain revealed that the sol-gel groups showed the highest bonding strength. In the absence of silica treatment, the control and 110 ¥ìm sandblasted groups showed a significantly lower bonding strength that that of the sol-gel treated groups. The 50 ¥ìm sandblasted group showed a slightly higher bonding strength than the control and 110 ¥ìm sandblasted groups owing to the rough surface of the 50 ¥ìm sandblasted specimens. When a load was continuously applied and the zirconia was finally destroyed, the sol-gel group showed lower flexural strengths (different from the initial strength) owing to the change in the elastic modulus due to silica penetration. The flexural strengths exhibited by the sol-gel treated groups were statistically significantly lower than those of the control and 110 ¥ìm sandblasted groups. The remaining three groups showed flexural strengths that did not significantly exceed the manufacturer¡¯s strength value. Thus, when zirconia and porcelain were combined and silica was penetrated by the sol-gel method, the bonding strength increased, but the final flexural strength of zirconia was lowered due to the change in the elastic modulus.
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KEYWORD
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Sol-gel, Zirconia, Porcelain, Bond strength, Flexural strength
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