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加速与慢速体外老化方法及其对通用色度、聚氨酯基复合材料的影响。

Accelerated versus Slow In Vitro Aging Methods and Their Impact on Universal Chromatic, Urethane-Based Composites.

作者信息

Ilie Nicoleta

机构信息

Department of Conservative Dentistry and Periodontology, University Hospital, Ludwig-Maximilians-University, Goethestr. 70, D-80336 Munich, Germany.

出版信息

Materials (Basel). 2023 Mar 7;16(6):2143. doi: 10.3390/ma16062143.

DOI:10.3390/ma16062143
PMID:36984023
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10058411/
Abstract

Structural coloring of dental resin-based composites (RBC) is used to create universal chromatic materials designed to meet any aesthetic need, replacing the mixing and matching of multiple shades. The microstructural adjustments to create this desideratum involve nanoscale organic-inorganic core-shell structures with a particular arrangement. The generally higher polymer content associated with these structures compared to universal chromatic RBCs colored by pigments, which in their microstructure come close to regularly shaded RBCs, can influence the way the material ages. Accelerated and slow aging up to 1.2 years of immersion in artificial saliva at 37 °C were therefore compared in relation to their effects on the materials described above and in relation to the immersion conditions prescribed by standards. Quasi-static and viscoelastic parameters were assessed to quantify these effects by a depth-sensing indentation test equipped with a DMA module. The microstructure of the materials was characterized by scanning electron microscopy. The results convincingly show a differentiated influence of the aging protocol on the measured properties, which was more sensitively reflected in the viscoelastic behavior. Accelerated aging, previously associated with the clinical behavior of RBCs, shows a 2- to 10-fold greater effect compared to slow aging in artificial saliva of up to 1.2 years, highly dependent on the microstructure of the material.

摘要

牙科树脂基复合材料(RBC)的结构着色用于制造通用的彩色材料,旨在满足任何美学需求,取代多种色调的混合搭配。为实现这一需求而进行的微观结构调整涉及具有特定排列的纳米级有机-无机核壳结构。与通过颜料着色的通用彩色RBC相比,这些结构通常具有更高的聚合物含量,其微观结构接近规则着色的RBC,这可能会影响材料的老化方式。因此,比较了在37°C人工唾液中浸泡长达1.2年的加速老化和缓慢老化对上述材料的影响以及与标准规定的浸泡条件的关系。通过配备DMA模块的深度传感压痕试验评估准静态和粘弹性参数,以量化这些影响。通过扫描电子显微镜对材料的微观结构进行表征。结果令人信服地表明,老化方案对测量性能有不同的影响,这在粘弹性行为中表现得更为敏感。与在人工唾液中长达1.2年的缓慢老化相比,先前与RBC临床行为相关的加速老化显示出大2至10倍的影响,这高度依赖于材料的微观结构。

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