The effect of oxidizing water on metallic restorations in the mouth: in vitro reduction behavior of oxidizing water.

T Nishida
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引用次数: 2

Abstract

Mouth-rinsing with oxydized water which contains electrolytically generated chlorine is known to hinder dental plaque formation and growth, but it also accelerates the deterioration of metallic restorations in the mouth. The present work consists of an in vitro study to elucidate the electrochemical reactions involved in the reduction of oxydized water on dental alloys through a systematic investigation of the potentiostatic polarization behavior of dental alloy electrodes. The five dental alloys selected for investigation were gold alloy, gold alloy containing platinum, silver-palladium-gold alloy, conventional amalgam and high copper amalgam. The corrosion potentials of all dental alloy electrodes were shown to be more noble in oxydized water than in 0.1N sodium chloride solution. The potential differences between the corrosion potentials were relatively small in the case of amalgam electrodes. The polarization curves for all of the dental alloy electrodes in oxydized water revealed reduction currents of chlorine, hypochlorous acid, dissolved oxygen and oxonium ion. The reduction of chlorine and hypochlorous acid started at a more noble potential than that of dissolved oxygen. The dental alloys studied, except the amalgams, did not dissolve excessively at the corrosion potentials in oxydized water.

氧化水对口腔金属修复的影响:氧化水的体外还原行为。
用含有电解氯的氧化水漱口会阻碍牙菌斑的形成和生长,但它也会加速口腔中金属修复体的退化。本研究通过系统地研究牙科合金电极的恒电位极化行为,在体外研究了氧化水在牙科合金上还原的电化学反应。研究的五种牙科合金分别是金合金、含铂金合金、银钯金合金、常规汞合金和高铜汞合金。所有牙科合金电极的腐蚀电位在氧化水中比在0.1N氯化钠溶液中更高贵。汞合金电极的腐蚀电位之间的电位差相对较小。所有牙合金电极在氧化水中的极化曲线显示氯、次氯酸、溶解氧和氧离子的还原电流。氯和次氯酸的还原开始于一个比溶解氧更高贵的电位。除汞合金外,所研究的牙科合金在氧化水中的腐蚀电位下没有过度溶解。
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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