用于识别钢合金屏蔽腐蚀机理的电解质成分

IF 1.5 Q4 ELECTROCHEMISTRY

International Journal of Corrosion Pub Date : 2017-12-24 DOI:10.1155/2017/9425864

Ingmar Bösing, J. Thöming, M. Baune

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引用次数: 10

摘要

点蚀引起的钝化层的形成和破坏是金属结构失效的主要原因。钝化和点蚀的研究需要两种不同的电化学测量，因此是一个耗时的过程。为了减少材料表征的时间，并研究这两种机制的相互作用，这里引入了一个针对这两种现象的组合实验。在所提出的电解质中，通过循环伏安图和极化扫描来区分和研究不同的腐蚀机制。测量显示了钝化区、亚稳凹坑生长、点蚀以及再钝化。点蚀与其他溶解过程分开，腐蚀电位的标准偏差小于其他电解质中的标准偏差。钝化和点蚀都可以在一次测量中观察到，而无需额外的腐蚀侵蚀。同一钢材的不同测量值之间的偏差较小；这有助于类似材料的筛选。

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Electrolyte Composition for Distinguishing Corrosion Mechanisms in Steel Alloy Screening

The formation and breakdown of passive layers due to pitting corrosion are a major cause of failure of metal structures. The investigation of passivation and pitting corrosion requires two different electrochemical measurements and is therefore a time consuming process. To reduce time in material characterization and to study the interactions of both mechanisms, here, a combined experiment addressing both phenomena is introduced. In the presented electrolyte the different corrosion mechanisms are distinguished and investigated by cyclic voltammograms and polarization scans. The measurements show a passive area, metastable pit growth, and pitting corrosion as well as repassivation. The pitting corrosion is separated from additional dissolution processes and the standard deviation of the corrosion potential is smaller than in other electrolytes. Both passivation and pitting corrosion can be observed in one measurement without additional corrosion attacks. The deviation between different measurements of the same steel is small; this is helpful for the screening of similar materials.

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来源期刊

International Journal of Corrosion ELECTROCHEMISTRY-

CiteScore

5.70

自引率

0.00%

发文量

审稿时长

14 weeks