Evaluation of a Gliding Arc Discharge Non-thermal Atmospheric Pressure Plasma Device for Orthodontic Bonding

Q4 Engineering
Shuichi Yamagata, Takaaki Yamamoto, Yoshiaki Sato, S. Abe, T. Akasaka, Y. Yoshida, J. Iida
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引用次数: 0

Abstract

57 Introduction The necessity to bond orthodontic brackets onto precious metals or their alloys has recently increased, especially in adult patients [1]. In the engineering fields, various methods have been developed to improve bond strength between metal surfaces and polymer adhesives. Clinically, pretreatment of metal surfaces are performed using a few procedures, e.g. abrasion [1-4] and primer methods preceded by mechanical cleaning [2,4-9]. Physicochemical alteration by water vapor and organic matter directly occurs after cleaning because of the incommensurably high surface energy of metals. A highly effective, simple, and time-effective pretreatment of primers is thus warranted. Plasma is a state of matter that consists of electrons, ions, free radical, and electronically excited atoms and molecules. In the past several years, there have been extensive efforts in apEvaluation of a Gliding Arc Discharge Non-thermal Atmospheric Pressure Plasma Device for Orthodontic Bonding
滑行电弧放电非热常压等离子体正畸粘接装置的评价
最近,将正畸托槽粘接在贵金属或其合金上的必要性增加了,特别是在成年患者中。在工程领域,已经开发了各种方法来提高金属表面与聚合物粘合剂之间的结合强度。临床上,金属表面的预处理通常采用几种方法,如磨擦[1-4]和底漆方法,然后再进行机械清洗[2,4-9]。由于金属的表面能异常高,清洗后直接发生水蒸气和有机物的物理化学变化。因此,需要对引物进行高效、简单、时效的预处理。等离子体是一种由电子、离子、自由基和电子激发的原子和分子组成的物质状态。在过去的几年里,人们对滑行电弧放电非热常压等离子体装置在正畸粘接中的应用进行了大量的研究
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来源期刊
Nano Biomedicine
Nano Biomedicine Engineering-Biomedical Engineering
CiteScore
0.30
自引率
0.00%
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0
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