颗粒和喷砂时间对氧化锆表面特性和结合强度的影响。
Influence of Particle and Air-Abrasion Moment on Y-TZP Surface Characterization and Bond Strength.
机构信息
Department of Dental Materials and Prosthodontics, Araraquara Dental School, UNESP, Araraquara, São Paulo, Brazil.
Department of Oral Sciences, Alma Mater Studiorum University of Bologna, Italy.
出版信息
J Prosthodont. 2019 Jan;28(1):e271-e278. doi: 10.1111/jopr.12718. Epub 2017 Dec 13.
PURPOSE
To evaluate the influence of particle and air-abrasion on the surface characterization and shear bond strength (SBS) of a Y-TZP ceramic with a resin cement.
MATERIALS AND METHODS
Y-TZP specimens were air-abraded with 50 μm alumina particles; 120 μm alumina particles; 30 μm silica-coated alumina particles (Rocatec Soft); 110 μm silica-coated alumina particles (Rocatec Plus). Air-abrasion was performed before (BS); after (AS); before and after (BAS) zirconia sintering. Surface characterization included roughness (n = 10), wettability (n = 10), morphology (n = 2), and elemental composition (n = 2). For SBS (n = 11), composite resin discs were bonded to the air-abraded and silane-treated zirconia surface, with the resin cement RelyX ARC. Failure mode was determined. Roughness, wettability, and SBS data were analyzed by two-way ANOVA with pairwise interaction and Tukey's test (α = 0.05).
RESULTS
Air-abrasion performed with coarser particles at BS and BAS moments provided the highest roughness values, while the lowest roughness values were observed with particles combined with AS moment (p < 0.01). Rocatec Plus provided lower contact angle than the 120 μm alumina particles (p = 0.013), and BAS exhibited lower contact angle than BS (p = 0.002). The combinations 120 μm/BS and the silica-coated alumina particles/AS and /BAS showed the highest SBS (p < 0.05). The combination of each particle/BAS was statistically similar to the same particle/AS. Failure mode was 100% adhesive for all groups. The interaction particle size/air-abrasion moment determined the morphological pattern. Silicon was observed only in the Rocatec groups.
CONCLUSIONS
Roughness was influenced by the particle size and was higher when the zirconia was air-abraded in its green stage. The particle composition played an important role in the wettability and both studied air-abrasion moments provided similar wettability than the one in which air-abrasion is usually performed. The highest SBS values were observed in the three moments, by using certain particles for each moment.
目的
评估粒子和喷砂对具有树脂水泥的 Y-TZP 陶瓷表面特性和剪切结合强度(SBS)的影响。
材料和方法
用 50μm 氧化铝颗粒;120μm 氧化铝颗粒;30μm 硅烷化氧化铝颗粒(Rocatec Soft);110μm 硅烷化氧化铝颗粒(Rocatec Plus)对 Y-TZP 标本进行喷砂。在氧化锆烧结之前(BS);之后(AS);前后(BAS)进行喷砂。表面特性包括粗糙度(n=10)、润湿性(n=10)、形貌(n=2)和元素组成(n=2)。SBS 测试(n=11)中,将复合树脂圆盘粘合到喷砂和硅烷处理的氧化锆表面,使用树脂水泥 RelyX ARC。确定失效模式。使用双向方差分析和两两交互 Tukey 检验(α=0.05)分析粗糙度、润湿性和 SBS 数据。
结果
BS 和 BAS 时刻使用较粗颗粒进行喷砂处理可获得最高的粗糙度值,而 AS 时刻与颗粒结合时观察到的粗糙度值最低(p<0.01)。Rocatec Plus 提供的接触角低于 120μm 氧化铝颗粒(p=0.013),而 BAS 提供的接触角低于 BS(p=0.002)。120μm/BS 和硅烷化氧化铝颗粒/AS 和/BAS 的组合显示出最高的 SBS(p<0.05)。每个颗粒/BAS 的组合在统计学上与相同颗粒/AS 相似。所有组的失效模式均为 100% 粘合。颗粒尺寸/喷砂处理时刻的相互作用决定了形态模式。仅在 Rocatec 组中观察到硅。
结论
粗糙度受颗粒尺寸的影响,在氧化锆处于绿色阶段时喷砂处理时更高。颗粒成分对润湿性起着重要作用,两种研究的喷砂处理时刻都提供了与通常进行喷砂处理时相似的润湿性。通过在每个时刻使用某些颗粒,在三个时刻都观察到了最高的 SBS 值。
Zotero 插件