Turp Volkan, Ongul Deger, Gultekin Pınar, Bultan Ozgur, Karataslı Burcin, Pak Tunc Elif
Department of Prosthodontics, Faculty of Dentistry, Istanbul University Turkey.
J Istanb Univ Fac Dent. 2015 Jan 31;49(1):10-18. doi: 10.17096/jiufd.25575. eCollection 2015.
The aim of this study was to evaluate the effect of thickness of zirconia on curing efficiency of resin cements.
Four discs with 4.0 mm in diameter were prepared from non-HIP translucent zirconia blocks using a CAD/CAM system and feldspathic ceramic was layered onto discs. Thus, 4 ceramic disc samples were fabricated: (G) 0.5 mm zirconia- as a control group, (G1) 0.5 mm zirconia and 0.5 mm feldspathic, (G2) 1.0 mm zirconia and 0.5 mm feldspathic and (G3) 2.0 mm zirconia and 0.5 mm feldspathic ceramic layer. 2 different dual cure cements were polymerized using a LED curing unit. Degree of conversion was evaluated using Vickers Hardness Test and depths of cure of samples were measured. Data were analyzed statistically using One-way ANOVA and Tukey's HSD test (p<0.05).
Microhardness and depth of cure values were different under same thickness of ceramic discs for two resin cements. As the thickness of the zirconia discs increased, the microhardness values and depth of cure decreased.
Photocuring time cannot be the same for all clinical conditions, under thicker zirconia restorations (>2.0 mm), an extended period of light curing or a light unit with a high irradiance should be used.
本研究旨在评估氧化锆厚度对树脂水门汀固化效率的影响。
使用计算机辅助设计/计算机辅助制造(CAD/CAM)系统从非热等静压半透明氧化锆块制备4个直径为4.0毫米的圆盘,并在圆盘上分层覆盖长石质陶瓷。由此制备了4个陶瓷圆盘样品:(G)0.5毫米氧化锆——作为对照组,(G1)0.5毫米氧化锆和0.5毫米长石质陶瓷,(G2)1.0毫米氧化锆和0.5毫米长石质陶瓷,以及(G3)2.0毫米氧化锆和0.5毫米长石质陶瓷层。使用发光二极管(LED)固化装置使2种不同的双重固化水门汀发生聚合反应。使用维氏硬度测试评估转化率,并测量样品的固化深度。使用单因素方差分析和Tukey's HSD检验(p<0.05)对数据进行统计学分析。
对于两种树脂水门汀,在相同厚度的陶瓷圆盘下,显微硬度和固化深度值有所不同。随着氧化锆圆盘厚度的增加,显微硬度值和固化深度降低。
在所有临床情况下光固化时间不可能相同,在较厚的氧化锆修复体(>2.0毫米)下,应使用延长的光固化时间或高辐照度的光固化装置。