The Effect of Physicochemical Surface Treatment Methods on Bond Strength of Zirconia to Resin Cement: A Review of the Literature

Shahid Beheshti University Dental Journal Pub Date : 2013-03-15 DOI:10.22037/JDS.V31I1.28641

H. Nojehdehyan, M. Moezzyzadeh, H. Haghi

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Abstract

Objective: Zirconium oxide has gained the spotlight during the recent years as a high strength ceramic material. However, despite its mechanical superiorities, it forms a weak bond with different synthetic substrates and tissues due to its neutral nature and resistance against chemical agents. Therefore, it is important to improve the bonding technique in order to prevent microleakage and increase retention and fracture resistance of the restoration. Literature Review: Since the discovery of zirconium oxide, several surface treatment methods have been evaluated to increase its bond strength to resin cement such as surface grinding with micro- abrasion, burs or abrasive papers, tribochemical silica coating, silicoating, glass micropearls, glaze- on technique, selective infiltration etching, hot etching and use of phosphate ester monomers. The mentioned techniques and related articles are reviewed and discussed in the present study. Conclusion: Despite extensive studies, no consensus has been reached about a specific treatment as the standard protocol for improving the bond strength of zirconia restorations.

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物理化学表面处理方法对氧化锆与树脂水泥结合强度的影响:文献综述

目的:氧化锆作为一种高强度陶瓷材料近年来受到广泛关注。然而，尽管它具有机械上的优势，但由于它的中性和对化学剂的抵抗力，它与不同的合成底物和组织形成了弱键。因此，为了防止微渗漏，提高修复体的固位性和抗断裂性，改进粘接技术至关重要。文献综述:自从氧化锆被发现以来，人们对几种提高氧化锆与树脂水泥结合强度的表面处理方法进行了评价，如微磨料、毛刺或砂纸表面研磨、摩擦化学二氧化硅涂层、硅化、玻璃微珍珠、上釉技术、选择性渗透蚀刻、热蚀刻和使用磷酸酯单体。本文对上述技术和相关文献进行了综述和讨论。结论:尽管进行了大量的研究，但对于提高氧化锆修复体结合强度的具体治疗方案尚未达成共识。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Shahid Beheshti University Dental Journal

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