水热老化对不同透明度氧化锆性能的影响。
Effect of hydrothermal aging on the properties of zirconia with different levels of translucency.
作者信息
Amarante José Eduardo Vasconcellos, Soares Pereira Marcos Venícius, De Souza Grace Mendonça, Pais Alves Manuel Fellipe R, Simba Bruno Galvão, Santos Claudinei Dos
机构信息
Fluminense Federal University, Faculty of Dentistry, Institute of Health of Nova Friburgo, Dr. Silvio Henrique Braune St, 22 - Downtown, Nova Friburgo, RJ, 28625-650, Brazil; Pontical Catholic University of Rio de Janeiro, Department of Chemical and Materials Engineering, PUC-Rio, Marques de São Vicente St 225, Gávea, Rio de Janeiro, RJ, 22453-901, Brazil.
Pontical Catholic University of Rio de Janeiro, Department of Chemical and Materials Engineering, PUC-Rio, Marques de São Vicente St 225, Gávea, Rio de Janeiro, RJ, 22453-901, Brazil.
出版信息
J Mech Behav Biomed Mater. 2020 Sep;109:103847. doi: 10.1016/j.jmbbm.2020.103847. Epub 2020 May 15.
OBJECTIVES
The aim of this study was to evaluate the effect of hydrothermal aging on the mechanical properties and translucency of dental zirconia with different levels of translucency.
METHODS
Three different types of dental yttria-stabilized zirconia were used: 3Y-TZP (ZrO - 3 mol.% YO) of medium opacity (designated Z3OP), 3Y-TZP of medium translucency (Z3MT), and 5Y-PSZ (ZrO - 5 mol.% YO) of high translucency (Z5HT). A total of 120 specimens were sintered (n = 40 specimens/group). The control group (sintered→polished→heat-treated) and the aged group (sintered→polished→heat-treated→hydrothermally degraded at 134 °C, 2 bar, 5h) were characterized by relative density, quantitative phase analysis by X-ray diffraction using the Rietveld method, microstructural analysis by scanning electron microscopy, surface roughness and translucency. All groups were submitted to a biaxial flexural strength test. Data analysis using Kruskal-Wallis, Nemenyi (p-value = 0.05), and Weibull statistics were used.
RESULTS
All sintered specimens presented full densification. After aging, an increase of the m-ZrO phase content was observed for the Z3OP group. On the other hand, Z3MT and Z5HT did not show any m-ZrO phase, indicating resistance to the hydrothermal degradation. Smaller grains were observed in the Z3MT group in relation to Z3OP group and the Z5HT group presented a bimodal grain distribution, where the largest grains were associated to cubic ZrO. Z3OP exhibited a slight increase in roughness as a function of degradation, while the roughness remained statistically stable in the other groups. Translucency was little influenced by degradation, but considerably affected by increasing thickness. The Z5HT samples were the group with the highest translucency among the control groups. Z3OP exhibited the highest flexural strength, while being the most susceptible to hydrothermal degradation. The lowest values were presented by Z5HT in all groups, due to the high concentration of c-ZrO grains.
CONCLUSION
Hydrothermal aging is less critical to the flexural strength of zirconia-based materials than the materials' composition and microstructure. Z5HT zirconia showed the highest translucency, however the measured difference is not visually perceptible. Z5HT was considered the most resistant to hydrothermal degradation.
目的
本研究旨在评估水热老化对不同半透性水平的牙科氧化锆力学性能和半透性的影响。
方法
使用三种不同类型的牙科钇稳定氧化锆:中等不透明度的3Y-TZP(ZrO - 3摩尔%YO,指定为Z3OP)、中等半透性的3Y-TZP(Z3MT)和高半透性的5Y-PSZ(ZrO - 5摩尔%YO,Z5HT)。总共烧结了120个试样(每组n = 40个试样)。对照组(烧结→抛光→热处理)和老化组(烧结→抛光→热处理→在134°C、2巴、5小时下进行水热降解)通过相对密度、使用Rietveld方法的X射线衍射定量相分析、扫描电子显微镜微观结构分析、表面粗糙度和半透性进行表征。所有组均进行双轴弯曲强度测试。使用Kruskal-Wallis、Nemenyi(p值= 0.05)和威布尔统计进行数据分析。
结果
所有烧结试样均呈现完全致密化。老化后,Z3OP组观察到m-ZrO相含量增加。另一方面,Z3MT和Z5HT未显示任何m-ZrO相,表明对水热降解具有抗性。与Z3OP组相比,Z3MT组观察到较小的晶粒,Z5HT组呈现双峰晶粒分布,其中最大的晶粒与立方ZrO相关。随着降解,Z3OP的粗糙度略有增加,而其他组的粗糙度在统计学上保持稳定。半透性受降解影响较小,但受厚度增加的影响较大。Z5HT样品是对照组中半透性最高的组。Z3OP表现出最高的弯曲强度,同时也是最易受水热降解影响的。由于c-ZrO晶粒浓度高,所有组中Z5HT的值最低。
结论
水热老化对氧化锆基材料弯曲强度的影响不如材料的组成和微观结构关键。Z5HT氧化锆显示出最高的半透性,然而测量的差异在视觉上无法察觉。Z5HT被认为是最耐水热降解的。
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