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光固化方法和照射时间对树脂基牙科材料力学性能的影响。

Effects of light curing method and exposure time on mechanical properties of resin based dental materials.

作者信息

Alpöz A Riza, Ertugrul Fahinur, Cogulu Dilsah, Ak Asli Topaloglu, Tanoglu Metin, Kaya Elçin

机构信息

Professor, Ege University, School of Dentistry, Department of Paediatric Dentistry, Izmir, Turkey.

出版信息

Eur J Dent. 2008 Jan;2(1):37-42.

Abstract

OBJECTIVES

The aim of this study was to investigate microhardness and compressive strength of composite resin (Tetric-Ceram, Ivoclar Vivadent), compomer (Compoglass, Ivoclar, Vivadent), and resin modified glass ionomer cement (Fuji II LC, GC Corp) polymerized using halogen light (Optilux 501, Demetron, Kerr) and LED (Bluephase C5, Ivoclar Vivadent) for different curing times.

METHODS

Samples were placed in disc shaped plastic molds with uniform size of 5 mm diameter and 2 mm in thickness for surface microhardness test and placed in a diameter of 4 mm and a length of 2 mm teflon cylinders for compressive strength test. For each subgroup, 20 samples for microhardness (n=180) and 5 samples for compressive strength were prepared (n=45). In group 1, samples were polymerized using halogen light source for 40 seconds; in group 2 and 3 samples were polymerized using LED light source for 20 seconds and 40 seconds respectively. All data were analyzed by two way analysis of ANOVA and Tukey's post-hoc tests.

RESULTS

Same exposure time of 40 seconds with a low intensity LED was found similar or more efficient than a high intensity halogen light unit (P>.05), however application of LED for 20 seconds was found less efficient than 40 seconds curing time (P=.03).

CONCLUSIONS

It is important to increase the light curing time and use appropriate light curing devices to polymerize resin composite in deep cavities to maximize the hardness and compressive strength of restorative materials.

摘要

目的

本研究旨在调查使用卤素灯(Optilux 501,Demetron,Kerr)和发光二极管(Bluephase C5,Ivoclar Vivadent)在不同固化时间下聚合的复合树脂(Tetric-Ceram,Ivoclar Vivadent)、复合体(Compoglass,Ivoclar,Vivadent)和树脂改性玻璃离子水门汀(Fuji II LC,GC Corp)的显微硬度和抗压强度。

方法

将样品置于直径5mm、厚度2mm的圆盘形塑料模具中进行表面显微硬度测试,并置于直径4mm、长度2mm的聚四氟乙烯圆柱体中进行抗压强度测试。每个亚组制备20个用于显微硬度测试的样品(n = 180)和5个用于抗压强度测试的样品(n = 45)。在第1组中,使用卤素光源将样品聚合40秒;在第2组和第3组中,使用发光二极管光源分别将样品聚合20秒和40秒。所有数据均通过双向方差分析和Tukey事后检验进行分析。

结果

发现低强度发光二极管40秒的相同曝光时间与高强度卤素灯相似或更有效(P>0.05),然而,发现发光二极管20秒的应用效率低于40秒的固化时间(P = 0.03)。

结论

增加光固化时间并使用合适的光固化设备以聚合深龋中的树脂复合材料,对于最大化修复材料的硬度和抗压强度很重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e9e6/2633152/a235ee553c6f/fig_1_page_40.jpg

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