Adhesion of dental ceramic materials to titanium and titanium alloys: a review

IF 2.9 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Oxford open materials science Pub Date : 2023-01-01 DOI:10.1093/oxfmat/itad011
I. Parushev, T. Dikova, I. Katreva, Yavor Gagov, S. Simeonov
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Abstract

In recent years, the application of titanium and its alloys for production of metal frameworks for metal–ceramic fixed partial dentures (FPDs) has been increasing. They are fabricated mainly by casting, CAD/CAM milling and selective laser melting. Manufacturing technologies affect the surface characteristics of the metal, which in turn affects the adhesion in the metal–ceramic system. Therefore, the purpose of the present article is to analyse the information about the adhesion of dental ceramics to pure titanium and its alloys, emphasizing the methods most commonly applied to improve adhesion. Based on the papers published last 10 years, the pure titanium and its alloys, the main technologies for their production and the porcelains applied in the fabrication of metal–ceramic FPDs are examined. It is summarized that the methods for increasing the adhesion strength of the porcelains to the titanium and Ti alloys can be classified into five large groups: mechanical, physical, chemical methods, application of bonding agents and combined treatments, as clear boundaries between them cannot be set. In the last decade, the successful technologies for improving the adhesion strength of Ti and its alloys to the porcelain usually consist of a combination of successive treatments of the metal surface. Abrasion of the titanium surface by sandblasting is most often used initially. At the next stage, a bonding agent or other type of intermediate layer of different coatings is applied to the metal, which further improves the adhesion strength to the porcelain.
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牙科陶瓷材料与钛及钛合金的粘附性研究进展
近年来,钛及其合金在金属陶瓷固定局部义齿金属框架中的应用越来越多。它们主要通过铸造、CAD/CAM铣削和选择性激光熔化来制造。制造技术影响金属的表面特性,进而影响金属-陶瓷系统的附着力。因此,本文旨在分析牙科陶瓷与纯钛及其合金的附着力,重点介绍最常用的提高附着力的方法。根据近10年来发表的论文,综述了纯钛及其合金及其主要生产技术,以及用于金属陶瓷FPDs制作的陶瓷。综上所述,提高陶瓷与钛及钛合金粘接强度的方法可分为机械法、物理法、化学法、粘结剂的应用和复合处理五大类,它们之间没有明确的界限。近十年来,提高钛及其合金与瓷的结合强度的成功技术通常包括对金属表面进行连续处理的组合。最初最常用的是喷砂法对钛表面进行磨蚀。在下一阶段,在金属上涂上一种粘合剂或其他类型的不同涂层的中间层,这进一步提高了与瓷器的附着力。
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来源期刊
CiteScore
3.60
自引率
0.00%
发文量
0
审稿时长
7 weeks
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