食品/口腔模拟液对牙科纳米复合光固化树脂复合材料动态力学热性能的影响。
Effect of food/oral-simulating liquids on dynamic mechanical thermal properties of dental nanohybrid light-cured resin composites.
机构信息
Laboratory of Organic Chemical Technology, Department of Chemistry, Aristotle University of Thessaloniki, Thessaloniki, Greece.
出版信息
Dent Mater. 2013 Aug;29(8):842-50. doi: 10.1016/j.dental.2013.04.013. Epub 2013 Jun 2.
OBJECTIVE
The purpose of this work was the study of the effect of food/oral simulating liquids on the dynamic mechanical thermal properties (viscoelastic properties) of current commercial dental light-cured resin composites characterized as nanohybrids. These nanohybrids were Grandio, Protofill-nano and Tetric EvoCeram.
METHODS
The properties were determined under dry conditions (1h at 37°C after light-curing) and also after storage in dry air, distilled water, artificial saliva SAGF(®) or ethanol/water solution (75 vol%) at 37°C for up 1, 7, 30 or 90 days. Dynamic mechanical thermal analysis tests were performed on a Diamond Dynamic Mechanical Analyzer in bending mode. A frequency of 1Hz and a temperature range of 25-185°C were applied, while the heating rate of 2°C/min was selected to cover mouth temperature and the materials' likely Tg.
RESULTS
Storage modulus, loss modulus and tangent delta were plotted against temperature over this period. The Tg of composites was obtained as the temperature indicated by tanδ peak. Moreover, the maximum height of tanδ peak, the width at the half of tanδ maximum and a parameter known as "ζ" parameter were determined. All composites analyzed 1h after light-curing and 1 day in air or in food/oral simulating liquids showed two Tg. All composites stored for 7, 30 or 90 days in any medium showed unique Tg value. Also among the various properties studied the most sensible in the structural changes of composites seems to be the Tg.
SIGNIFICANCE
Storage of composites in dry air at 37°C which is very close to their Tg (40°C) for 1 or 7 days caused post curing reactions, while storage for 30 or 90 days has no further effect on composites. Storage in water or artificial saliva 37°C for 1 or 7 days caused post curing reactions, while storage for 30 or 90 days seems to cause plasticization effect affecting some parameters analogously. Storage in ethanol/water solution (75vol%) 37°C for 1 or 7 days caused also post curing reactions, while storage for 30 or 90 days caused plasticization and/or probable oxidation/hydrolysis of polymeric network.
目的
本工作旨在研究食品/口腔模拟液对当前商业化光固化牙科树脂复合材料(纳米复合材料)的动态力学热性能(粘弹性)的影响。这些纳米复合材料分别为 Grandio、Protofill-nano 和 Tetric EvoCeram。
方法
在干燥条件下(光固化后 1h 在 37°C 下)以及在干燥空气、蒸馏水、人工唾液 SAGF(®)或乙醇/水溶液(75 体积%)中于 37°C 下储存 1、7、30 或 90 天后,对其性能进行了测定。在弯曲模式下,使用 Diamond 动态机械分析仪进行动态力学热分析测试。施加的频率为 1Hz,温度范围为 25-185°C,而选择的升温速率为 2°C/min,以覆盖口腔温度和材料的可能 Tg。
结果
在这段时间内,将储能模量、损耗模量和损耗正切随温度的变化绘制成图。复合材料的 Tg 是由 tanδ 峰的温度表示的。此外,确定了 tanδ 峰的最大高度、tanδ 最大值的一半的宽度和一个称为“ζ”参数的参数。所有复合材料在光固化后 1h 以及在空气或口腔模拟液中储存 1 天,都显示出两个 Tg。所有复合材料在任何介质中储存 7、30 或 90 天后,均显示出独特的 Tg 值。在所研究的各种性能中,对复合材料结构变化最敏感的似乎是 Tg。
意义
将复合材料在非常接近其 Tg(40°C)的 37°C 干燥空气中储存 1 或 7 天会引起后固化反应,而储存 30 或 90 天对复合材料没有进一步的影响。在 37°C 的水或人工唾液中储存 1 或 7 天会引起后固化反应,而储存 30 或 90 天似乎会引起增塑作用,类似地影响一些参数。在 37°C 的 75vol%乙醇/水溶液中储存 1 或 7 天也会引起后固化反应,而储存 30 或 90 天会引起增塑作用和/或聚合物网络的可能氧化/水解。
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