不同表面处理对氧化锆微剪切粘结强度和表面特性的影响:一项体外研究。
Effect of Different Surface Treatments on the Micro-Shear Bond Strength and Surface Characteristics of Zirconia: An In Vitro Study.
作者信息
Sales Ann, Rodrigues Shobha J, Mahesh M, Ginjupalli Kishore, Shetty Thilak, Pai Umesh Y, Saldanha Sharon, Hegde Puneeth, Mukherjee Sandipan, Kamath Vignesh, Bajantri Prashant, Srikant N, Kotian Ravindra
机构信息
Department of Prosthodontics and Crown and Bridge, Manipal College of Dental Sciences, Mangalore, Manipal Academy of Higher Education, Manipal, India.
Department of Dental Materials, Manipal College of Dental Sciences, Mangalore, Manipal Academy of Higher Education, Manipal, India.
出版信息
Int J Dent. 2022 Apr 14;2022:1546802. doi: 10.1155/2022/1546802. eCollection 2022.
PURPOSE
To study the effect of different surface treatments on the micro-shear bond strength and surface characteristics of zirconia.
METHODS
Two types of zirconia ceramics were tested: opaque (O) and translucent (T). Each type of zirconia was further allotted into four groups based on the type of surface treatment method. The four groups were: control (C), air abrasion with 110 m AlO particles (A), etching with Zircos-E Etching solution for 2 hours (E), and a combination of air abrasion and etching (AE). After the surface treatment, all specimens were ultrasonically cleaned and 10 resin cement cylinders were attached to the zirconia discs in each group. A micro-shear bond strength test was performed in a universal testing machine at a crosshead speed of 0.5 mm/min. The fracture surfaces were assessed under a compound microscope. SEM, EDAX, and AFM analyses were done for the zirconia specimens after being subjected to surface treatment. Statistical analysis for the bond strength test was done using the Shapiro-Wilk test, one-way analysis of variance (ANOVA), and Post hoc Tukey test.
RESULTS
The micro-shear bond strength values for the groups were as follows in megapascals (MPa): OC 18.96 (5.54), OA 22.66 (2.51), OE 28.48 (4.50), OAE 28.63 (4.53), TC 22.82 (5.46), TA 25.36 (5.17), TE 28.12 (4.76), and TAE 32.00 (3.47). The one-way analysis of variance (ANOVA) and post hoc Tukey HSD tests were done which showed significant results in the groups. In opaque zirconia, significant differences were seen in the etching and air abrasion with etching groups when compared with the control and air abrasion groups. There was no difference between the etching and air abrasion with etching groups. For translucent zirconia, the only significant difference was seen in the air abrasion with etching group in comparison with the control and air abrasion groups. The mode of failure was majorly adhesive. The surface topography and surface roughness showed significant differences between the groups. The EDAX results showed material loss that occurred due to sandblasting in the air abrasion groups.
CONCLUSIONS
Etching with Zircos-E Etching solution significantly increased the bond strength of zirconia to resin cement when compared with other surface treatment methods. In translucent zirconia, the best results can be achieved by combining etching with air abrasion.
目的
研究不同表面处理对氧化锆微剪切粘结强度及表面特性的影响。
方法
测试两种类型的氧化锆陶瓷:不透明(O)型和半透明(T)型。每种类型的氧化锆根据表面处理方法的类型进一步分为四组。四组分别为:对照组(C)、用110μm AlO颗粒进行空气喷砂处理(A)、用Zircos - E蚀刻液蚀刻2小时(E)以及空气喷砂与蚀刻相结合(AE)。表面处理后,所有试样进行超声清洗,并在每组的氧化锆圆盘上粘贴10个树脂水门汀圆柱体。在万能试验机上以0.5mm/min的十字头速度进行微剪切粘结强度测试。在复合显微镜下评估断裂表面。对经过表面处理的氧化锆试样进行扫描电子显微镜(SEM)、能量散射X射线谱(EDAX)和原子力显微镜(AFM)分析。使用夏皮罗 - 威尔克检验、单因素方差分析(ANOVA)和事后检验的图基检验对粘结强度测试进行统计分析。
结果
各组的微剪切粘结强度值如下(单位为兆帕斯卡,MPa):OC组18.96(5.54),OA组22.66(2.51),OE组28.48(4.50),OAE组28.63(4.53),TC组22.82(5.46),TA组25.36(5.17),TE组28.12(4.76),TAE组32.00(3.47)。进行了单因素方差分析(ANOVA)和事后检验的图基HSD检验,结果显示各组之间存在显著差异。在不透明氧化锆中,与对照组和空气喷砂组相比,蚀刻组以及空气喷砂与蚀刻相结合的组存在显著差异。蚀刻组与空气喷砂与蚀刻相结合的组之间没有差异。对于半透明氧化锆,与对照组和空气喷砂组相比,仅在空气喷砂与蚀刻相结合的组中观察到显著差异。失效模式主要为粘结性。各组之间的表面形貌和表面粗糙度存在显著差异。EDAX结果显示空气喷砂组中由于喷砂导致材料损失。
结论
与其他表面处理方法相比,用Zircos - E蚀刻液蚀刻显著提高了氧化锆与树脂水门汀的粘结强度。在半透明氧化锆中,将蚀刻与空气喷砂相结合可获得最佳效果。
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