堆填深度和辐照时间对堆填材料表面硬度和固化程度的影响。

Journal of Dental Biomaterial Pub Date : 2016-09-01
Farahat F, Daneshkazemi Ar, Hajiahmadi Z
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引用次数: 0

摘要

问题说明:多年来,为了实现最小的聚合收缩和应力,应用厚度小于2mm的复合材料修复已经被接受为一个原则。但随着牙科材料的最新发展,一组树脂基复合材料(RBCs)被引入,其生产商声称有可能在深度为4甚至5毫米的块状材料中实现良好的修复。目的:评估照射时间和块状深度对块状填充复合材料的固化程度(DC)的影响,并将其与通用类型进行比较。材料与方法:本研究采用两组牙科红细胞,分别是N型陶瓷填充体和N型陶瓷通用体。在直径为5mm,高度为2,4和6mm的Teflon模具中制备复合样品。然后,每个深度的一半样品从模具的上部用LED光固化装置固化20s。其他标本辐照时间为40s。在蒸馏水中保存24小时后,使用Future Tech(日本- fm700型)维氏硬度试验机测量样品顶部和底部的显微硬度。数据采用单、多因素方差分析和Tukey检验进行统计学分析(p = 0.050)。结果:在规定的辐照时间和容重深度下,氮陶瓷填充体的DC明显大于通用型(p < 0.001)。此外,两种复合材料的DC都随着体深的增加而显著降低(p < 0.001)。将固化时间从20秒增加到40秒,对散装填充和通用研究RBC样品的DC均有边际显著影响(p≤0.040)。结论:所研究的体积填充复合材料在所有照射时间和体积深度上的DC均优于通用型。所研究的通用型和块状填充型红细胞分别在2 mm和4 mm的块状深度处具有合适的DC,采用推荐的固化时间为40s时,两种复合材料的DC值略好。
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The Effect of Bulk Depth and Irradiation Time on the Surface Hardness and Degree of Cure of Bulk-Fill Composites.

Statement of problem: For many years, application of the composite restoration with a thickness less than 2 mm for achieving the minimum polymerization contraction and stress has been accepted as a principle. But through the recent development in dental material a group of resin based composites (RBCs) called Bulk Fill is introduced whose producers claim the possibility of achieving a good restoration in bulks with depths of 4 or even 5 mm.

Objectives: To evaluate the effect of irradiation times and bulk depths on the degree of cure (DC) of a bulk fill composite and compare it with the universal type.

Materials and methods: This study was conducted on two groups of dental RBCs including Tetric N Ceram Bulk Fill and Tetric N Ceram Universal. The composite samples were prepared in Teflon moulds with a diameter of 5 mm and height of 2, 4 and 6 mm. Then, half of the samples in each depth were cured from the upper side of the mould for 20s by LED light curing unit. The irradiation time for other specimens was 40s. After 24 hours of storage in distilled water, the microhardness of the top and bottom of the samples was measured using a Future Tech (Japan- Model FM 700) Vickers hardness testing machine. Data were analyzed statistically using the one and multi way ANOVAand Tukey's test (p = 0.050).

Results: The DC of Tetric N Ceram Bulk Fill in defined irradiation time and bulk depth was significantly more than the universal type (p < 0.001). Also, the DC of both composites studied was significantly (p < 0.001) reduced by increasing the bulk depths. Increasing the curing time from 20 to 40 seconds had a marginally significant effect (p ≤ 0.040) on the DC of both bulk fill and universal studied RBC samples.

Conclusions: The DC of the investigated bulk fill composite was better than the universal type in all the irradiation times and bulk depths. The studied universal and bulk fill RBCs had an appropriate DC at the 2 and 4 mm bulk depths respectively and using the recommended curing time of 40s can led to the slightly better value of DC in both composites.

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