Plasma Surface Treatment: Effects on Mechanical and Corrosion Protection Properties of Hybrid Sol–Gel Coatings

Encyclopedia of Aluminum and Its Alloys Pub Date : 2018-11-16 DOI:10.1201/9781351045636-140000211

R. Subasri

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Abstract

Surface cleaning and activation of substrates are two critical processes that affect the mechanical and corrosion resistance properties of protective coatings when deposited on the substrates. Surface cleaning removes the contaminants, for example, grease on the substrate, and surface activation introduces active bonds on the substrate thereby increasing the surface free energy. Conventionally, surface cleaning and activation of aluminum and its alloys are carried out by a wet chemical technique. A convenient and safe alternate to the wet chemical cleaning/activation would be to use plasma for the same purpose. Plasma surface pre-treatment greatly improves adhesion of coatings deposited, which is very vital for good corrosion protection and mechanical properties such as scratch and abrasion resistance. Cold and atmospheric air plasma treatments have been the most widely studied pre-treatments for Al alloys. This article will discuss the advancements in the use of plasma treatment on Al/Al alloys and its effect on corrosion resistance and mechanical properties of coatings deposited after the surface treatment.

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等离子体表面处理:对混合溶胶-凝胶涂层机械性能和防腐性能的影响

表面清洗和基材活化是影响基材表面防护涂层机械性能和耐腐蚀性能的两个关键过程。表面清洁去除污染物，例如基材上的油脂，表面活化在基材上引入活性键，从而增加表面自由能。传统上，铝及其合金的表面清洁和活化是通过湿化学技术进行的。一种方便和安全的替代湿式化学清洗/活化的方法是使用等离子体来达到同样的目的。等离子体表面预处理大大提高了镀层的附着力，这对于良好的防腐性能和耐划伤、耐磨性等机械性能至关重要。低温和常压空气等离子体处理是目前研究最广泛的铝合金预处理方法。本文将讨论等离子体处理Al/Al合金的研究进展及其对表面处理后镀层的耐蚀性和力学性能的影响。

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Encyclopedia of Aluminum and Its Alloys

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