Mechanistic changes in cut edge corrosion induced by variation of inhibitor pigmentation in organically coated galvanised steel

British Corrosion Journal Pub Date : 2001-01-01 DOI:10.1179/000705901101501479

H. McMurray, S. Powell, D. Worsley

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引用次数: 37

Abstract

Abstract Corrosion at the exposed cut edges of organically coated galvanised steel (OCS) used for construction is one of the primary failure mechanisms. The scanning vibrating electrode technique (SVET) has shown that corrosion is driven by differential aeration when materials are coated with organic over-layers of widely differing thickness and primer layers are pigmented with strontium chromate (SrCrO4 ). In such materials anodic activity is localised on the zinc layer proximal to the thicker organic coating with cathodic activity focused on the steel and zinc proximal to the thinner organic coating. To overcome the localisation of anodic and cathodic activity we have prepared novel OCS panels in which cathodic inhibitor primer systems based on rare earth metal cation exchanged pigments have been employed beneath the thinner organic coating and conventional strontium chromate anodic inhibitor systems beneath the thicker organic coating. The differential inhibitor loading overrides the effects of differential aeration and leads to significant passivation within the 24 h immersion period.

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有机镀锌钢中缓蚀剂色素沉积变化引起的切削边缘腐蚀机理变化

摘要建筑用有机镀锌钢(OCS)的外露边缘腐蚀是其主要失效机制之一。扫描振动电极技术(SVET)表明，当材料表面涂有厚度差异很大的有机覆盖层和底漆层涂有铬酸锶(SrCrO4)时，不同的曝气会导致腐蚀。在这种材料中，阳极活性位于靠近较厚有机涂层的锌层上，阴极活性集中在靠近较薄有机涂层的钢和锌层上。为了克服阳极和阴极活性的局限性，我们制备了新型OCS面板，其中基于稀土金属阳离子交换颜料的阴极抑制剂底漆系统在较薄的有机涂层下使用，而传统的铬酸锶阳极抑制剂系统在较厚的有机涂层下使用。不同的缓蚀剂负荷覆盖了不同曝气的影响，并在24小时浸泡期间导致显著的钝化。

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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British Corrosion Journal

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