Evaluation of Metallic coatings as related to their corrosion Resistance. A Review

A. Mercer
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引用次数: 2

Abstract

An important difference between metallic and nonmetallic coatings is that the former can significantly affect the corrosion behaviour of the coated metal at sites where the coating is incomplete or damaged whereas generally organic coatings have no such effect. Metallic coatings afect the behaviour of the basis metal because an electrolytic cell is established in which either the basis or the coating metal will act as an anode and corrode at an enhanced rate. When the coating is the anode the basis metal will form the cathode and usually will corrode at a lower rate than in the complete absence of the coating. However, it is well known that simple considerations of anodic and cathodic behaviour do not explain all the phenomena involved in the corrosion and protection of metal coated metals. Other factors of importance include the formation of insoluble corrosion products and the influence of time and temperature on this process, the electrochemical polarisation behaviour of the metals, and the nature of the corrosive or inhibitive environment. The uses and properties of some types of metal coatings will be described in relation to these factors and the implication of these to test methods discussed. One particular system viz. galvanised steel in water containing a corrosion inhibitor will be described in more detail in terms of electrochemical behaviour.

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与金属涂层耐腐蚀性相关的金属涂层评估。综述
金属涂层和非金属涂层之间的一个重要区别是,前者会显著影响涂层金属在涂层不完整或损坏的部位的腐蚀行为,而有机涂层通常没有这种影响。金属涂层影响基础金属的行为,因为建立了一个电解池,其中基础或涂层金属将充当阳极并以增强的速率腐蚀。当涂层是阳极时,基底金属将形成阴极,并且通常将以比完全没有涂层时更低的速率腐蚀。然而,众所周知,对阳极和阴极行为的简单考虑并不能解释金属涂层金属的腐蚀和保护所涉及的所有现象。其他重要因素包括不溶性腐蚀产物的形成、时间和温度对该过程的影响、金属的电化学极化行为以及腐蚀或抑制环境的性质。将根据这些因素描述某些类型金属涂层的用途和性能,并讨论这些因素对测试方法的影响。一种特殊的系统,即含缓蚀剂的水中镀锌钢,将根据电化学行为进行更详细的描述。
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