玻璃离子牙科胶合剂的成熟过程。

Acta Biomaterialia Odontologica Scandinavica Pub Date : 2018-07-31 eCollection Date: 2018-01-01 DOI:10.1080/23337931.2018.1497492
John W Nicholson
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引用次数: 50

摘要

在临床牙科中,玻璃离子水门体用于多种牙齿修复功能。它们是由碱性玻璃粉与聚合水溶性酸(通常是聚丙烯酸)溶液反应形成的。水泥通过初始中和反应硬化后,发生各种成熟反应。这些成熟反应引起的变化被确定为:强度增加;塑性降低;改善不透明度;并增加紧密结合水的比例。此外,在与牙齿接触时,逐渐形成离子交换界面层。这是机械强度和耐化学性。这些变化在当前的论文中被描述,它回顾了它们发生的程度,并报告了关于它们背后的化学知识。各种离子和水在水泥中缓慢扩散的过程带来了这些变化。它们包括形成磷酸基相的二次凝结反应,水与金属阳离子周围的配位位点和聚合物分子周围的水合鞘结合,以及水与玻璃颗粒表面形成硅醇基团的可能反应。来自广泛文献来源的证据被用来建立成熟过程化学的详细图景,并强调了我们理解上的差距。文章的结论是,鉴于玻璃离聚体在当代牙科中的重要性,了解这种成熟过程在当前水泥配方中发生的程度以及确定它们发生的速度是很重要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Maturation processes in glass-ionomer dental cements.

Maturation processes in glass-ionomer dental cements.

Maturation processes in glass-ionomer dental cements.

Maturation processes in glass-ionomer dental cements.

Glass-ionomer cements are used for a variety of tooth-repair functions in clinical dentistry. They are formed by reaction of a basic glass powder with a solution of polymeric water-soluble acid, usually polyacrylic acid. After the initial neutralization reaction, by which the cement hardens, various maturation reactions occur. Changes induced by these maturation reactions are identified as: increase in strength; reduction in plasticity; improvement in opacity; and increase in proportion of tightly bound water. In addition, in contact with the tooth, an ion-exchange interfacial layer is gradually formed. This is mechanically strong and chemically-resistant. These changes are described in the current paper, which reviews the extent to which they occur, and reports what is know about the chemistry that underlies them. Processes involving slow diffusion of various ions and of water through the set cement bring about these changes. They include a secondary setting reaction to form a phosphate-based phase, binding of water to co-ordination sites around metal cations and to a hydration sheath around the polymer molecules, and possibly reaction of water with glass particle surfaces to form silanol groups. Evidence from a wide range of literature sources is used to be build up a detailed picture of the chemistry of the maturation processes, and gaps in our understanding are highlighted. The article concludes that, given the importance of glass-ionomers in contemporary dentistry, it is important to know the extent to which such maturation processes occur in current cement formulations, and also to determine how rapidly they take place.

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