Influencing the anticorrosion efficiency of pigments based on zinc ferrite by conductive polymers

Q3 Materials Science Koroze a ochrana materialu Pub Date : 2018-07-01 DOI:10.1515/kom-2018-0012

K. Nechvílová, A. Kalendová

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引用次数: 1

Abstract

Abstract Generally, organic coatings which contain zinc ferrites are able to protect metal substrate, most often low-carbon steel, by inhibition mechanism. Conductive polymers are using a system of conjugated double-bonds to transfer a charge over the chain thereby providing their own electrical conductivity in the organic coatings. The charge from the chain in combination with the iron substrate generates electrons to the formation of passivation products on the surface of paint film. This paper is focused on combination of zinc ferrite with conductive polymer and using of synergic effect of these two components. The organic coatings were formulated from hematite and specularite on pigments concentration line 5, 10, 20 and 25 wt.% for better recognizing of the effectiveness of zinc ferrite component. The content of the conductive polymer was consistently set at 3 wt.% in each organic coating. A solvent-based epoxy-ester resin was used as a binder. The physico-mechanical and corrosion tests were performed for all samples. The corrosion signs were evaluated on the surface of coating and also on the surface of metal substrate. In the end, the efficiency was compared alone zinc ferrite and alone polymers and also their combinations.

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导电聚合物对铁酸锌基颜料防腐性能的影响

一般来说，含锌铁氧体的有机涂层能够通过缓蚀机制保护金属基体，通常是低碳钢。导电聚合物使用共轭双键系统在链上转移电荷，从而在有机涂层中提供它们自己的导电性。链上的电荷与铁基体结合产生电子，在漆膜表面形成钝化产物。本文主要研究了铁氧体锌与导电聚合物的结合及其协同效应的利用。以赤铁矿和镜铁矿为原料，在5、10、20和25 wt.%的颜料浓度线上配制有机涂料，以更好地识别铁酸锌组分的有效性。在每个有机涂层中，导电聚合物的含量始终设定为3 wt.%。采用溶剂型环氧酯树脂作为粘结剂。对所有样品进行了物理力学和腐蚀试验。对涂层表面和金属基体表面的腐蚀现象进行了评价。最后，比较了单独使用铁氧体锌和单独使用聚合物及其组合的效率。

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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