L’ossido di zirconio a struttura tetragonale stabilizzato con ittrio per uso odontoiatrico: studio dell’interfaccia ceramica/zirconia

Italian Oral Surgery Pub Date : 2011-11-01 DOI:10.1016/j.ios.2011.04.001

L. Mora , S. Vittoni , C. Passariello , P. Gigola

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Abstract

Objective

The introduction of yttrium-stabilized zirconia (Y-TZP) has opened new frontiers in the fields of dental-material esthetics and biocompatibility. In a previous report, we analyzed the capacity of Y-TZP to withstand maximum loading (static resistance) and the repeated application of loads lesser than those that provoke fracture (fatigue resistance). The aim of this study was to evaluate the adhesion between Y-TZP and its ceramic support (shear resistance).

Materials and methods

To assess this characteristic, we developed a new testing protocol to be used with specially designed cylindrical samples with ceramic covering on a zirconia base. The research was carried out in two phases: the aim of the first was to identify the approach that produced the best adhesion; the second phase aimed at identifying the mechanical and/or physical mechanisms responsible for the zirconia/ceramic adhesion.

Results

In the first phase, we found that the surface finish of the zirconia was the sole factor that influenced final adhesion. In the second phase, our findings showed that this adhesion is essentially due to micromechanical and physical interactions, which were not dependent on the contact pressure between the two materials or on the geometric characteristics of the ceramic covering.

Conclusions

On the whole, the best final result was obtained when the zirconia was subjected to surface finishing with a diamond rotary instrument, but even in this case adhesion was inferior to that achieved with a gold-alloy base.

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牙科用途:陶瓷/锆界面研究

目的钇稳定氧化锆(Y-TZP)的引入为口腔材料美学和生物相容性研究开辟了新的领域。在之前的一份报告中，我们分析了Y-TZP承受最大载荷(静力阻力)的能力，以及小于导致断裂的载荷(疲劳阻力)的重复应用能力。本研究的目的是评估Y-TZP与其陶瓷支架之间的粘附性(抗剪切性)。为了评估这一特性，我们开发了一种新的测试方案，用于特殊设计的圆柱形样品，陶瓷覆盖在氧化锆基座上。研究分两个阶段进行:第一个阶段的目的是确定产生最佳粘附的方法;第二阶段旨在确定氧化锆/陶瓷粘附的机械和/或物理机制。结果在第一阶段，我们发现氧化锆的表面光洁度是影响最终附着力的唯一因素。在第二阶段，我们的研究结果表明，这种粘附本质上是由于微观机械和物理相互作用，而不依赖于两种材料之间的接触压力或陶瓷覆盖层的几何特性。结论总的来说，金刚石旋转器械对氧化锆进行表面处理的效果最好，但即使在这种情况下，附着力也不如金合金底座处理的效果好。

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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来源期刊

Italian Oral Surgery

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