Solubility of Dental Ceramics in Electric Fields

Recent progress in materials Pub Date : 2022-04-21 DOI:10.21926/rpm.2202012

S. John, Svenja Rink, Leandra Weidemann, K. Huesker, W. Niedermeier

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Abstract

Combining dental ceramics with other prosthetic metallic restorations might release metal ions, thus affecting the oral tissues of the patients. In this study, we evaluated the electrochemical solubility of various dental ceramics in a galvanic experimental setup in vitro. Smooth and rough feldspathic and zirconium dioxide ceramics (at pH 5.5 and pH 3.0) were exposed to an electric field. Calcium, barium, and zirconium were selected as parameters to determine the solubility of both types of ceramic materials. Among all test groups, feldspathic ceramics were more soluble than zirconium dioxide ceramics at low pH. The results indicated that the solubility of zirconium dioxide was not significantly affected by the presence of an electric field, although the solubility was higher when the pH was relatively lower. The feldspathic material had a higher sensitivity to acids and electrogalvanic processes. We found that the galvanic process increases the solubility of feldspathic ceramics. The surface quality is important in an acidic medium, especially for feldspathic ceramics. Zirconium dioxide ceramics are more resistant to an acidic medium and exposure to a clinically relevant electric field.

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牙科陶瓷在电场中的溶解度

牙科陶瓷与其他金属修复体结合使用可能会释放金属离子，从而影响患者的口腔组织。在这项研究中，我们在体外电实验装置中评估了各种牙科陶瓷的电化学溶解度。将光滑和粗糙的长石和二氧化锆陶瓷(pH分别为5.5和3.0)暴露在电场中。选择钙、钡和锆作为参数来确定这两种陶瓷材料的溶解度。在各试验组中，长石陶瓷在低pH下比二氧化锆陶瓷更易溶解。结果表明，电场存在对二氧化锆的溶解度影响不显著，但pH较低时，二氧化锆的溶解度较高。长石材料对酸和电过程具有较高的敏感性。我们发现电过程增加了长石陶瓷的溶解度。在酸性介质中，特别是长石陶瓷的表面质量是很重要的。二氧化锆陶瓷更耐酸性介质和暴露于临床相关的电场。

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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Recent progress in materials

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