Assessment of electrochemical response from high alloy stainless steels during slurry impingement and single impacts to improve understanding of erosion–corrosion

British Corrosion Journal Pub Date : 2002-02-01 DOI:10.1179/000705902225002321

A. Neville, X. Hu

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引用次数: 15

Abstract

Abstract Erosion-corrosion by liquid-solid impact results in damage on high alloy stainless steels where slurries are transported through pipes, valves, and pumps. It is well recognised that this damage is caused by a complex combination of mechanical (impact) and electrochemical (corrosion) processes. The synergy between erosion and corrosion is significant and depends on the nature of the materials and the aqueous environment. As part of a wider study investigating the mechanisms or erosion-corrosion of high alloy stainless steels, a series of electrochemical tests under multiple particle erosion-corrosion conditions and single impact conditions have been performed. In this paper the electrochemical behaviour under slurry erosion-corrosion and the transient electrochemical response under single impact of three stainless steels (UNS S31254, UNS S32654, and UNS S32750) is assessed. The depassivation and repassivation characteristics of the surface are characterised and these results are discussed in relation to the overall performance of the materials under erosion-corrosion conditions.

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评估高合金不锈钢在料浆冲击和单次冲击时的电化学响应，以提高对侵蚀腐蚀的认识

摘要:液体-固体冲击对高合金不锈钢造成腐蚀，其中浆液通过管道、阀门和泵输送。众所周知，这种损伤是由机械(冲击)和电化学(腐蚀)过程的复杂组合引起的。侵蚀和腐蚀之间的协同作用是重要的，取决于材料和水环境的性质。作为高合金不锈钢冲蚀机理研究的一部分，在多颗粒冲蚀条件和单冲击条件下进行了一系列电化学测试。本文研究了三种不锈钢(UNS S31254、UNS S32654和UNS S32750)在浆液侵蚀腐蚀下的电化学行为和单次冲击下的瞬态电化学响应。描述了表面的钝化和再钝化特性，并讨论了这些结果与材料在侵蚀-腐蚀条件下的整体性能的关系。

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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