Impact of corrosion product removal to depth of corrosion damage in weldment joint

Q3 Materials Science

Koroze a ochrana materialu Pub Date : 2019-12-01 DOI:10.2478/kom-2019-0019

J. Hodač, Z. Fulin

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引用次数: 0

Abstract

Abstract Corrosion flaws in pipelines can caused severe financial losses and also can be dangerous for people. One of the most frequently damaged parts are dissimilar pipe welds. We would like to understand how corrosion process reacts on corrosion product removal. Outputs from experiment will be used for production of test specimens. For testing we chose standard dissimilar weldment used in Czech power plants. It is joint with 08Ch18N10T and 22K (GOST) steel. Joint is cut to 24 same specimens. There are exposed to flowing water solution of 5% NaCl. Half of the specimens are regularly mechanically cleaned. The joint is metallographically observed and parts with and without corrosion products are compared. Water salt solution increased pH from 7,25 to 7,86 during 31 days test and conductivity varies around 74 mS cm−1. Metallographic observation indicates that corrosion under corrosion products layer is locally speed up and causes pitting corrosion. Cleaned specimens indicate plane corrosion with lower depth. These results indicate that slag in pipeline could locally speed up corrosion depth penetration. On the other hand, solutions with abrasive particles (which can wipe out the corrosion product) will probably facilitate plane corrosion damage on pipeline walls. This test brings us another knowledge, how to simulate realistic corrosion damage for production of NDT qualification test pieces.

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腐蚀产物去除对焊件接头腐蚀损伤深度的影响

摘要管道的腐蚀缺陷不仅会造成严重的经济损失，而且会危及人身安全。最常损坏的部件之一是不同的管道焊缝。我们想了解腐蚀过程对腐蚀产物去除的反应。实验结果将用于制作测试样品。试验选用捷克电厂标准异种焊件。它与08Ch18N10T和22K (GOST)钢接合。关节被切割成24个相同的标本。暴露于5% NaCl的流动水溶液中。一半的标本定期进行机械清洗。对接头进行金相观察，并对有腐蚀产物和无腐蚀产物的零件进行比较。在31天的测试中，水盐溶液的pH值从7.25增加到7.86，电导率在74 mS cm−1左右变化。金相观察表明，腐蚀产物层下的腐蚀局部加速，产生点蚀。清洗后的试样显示深度较低的平面腐蚀。研究结果表明，管道中的炉渣可以局部加速腐蚀深度渗透。另一方面，含有磨料颗粒的溶液(可以擦除腐蚀产物)可能会促进管道壁面的腐蚀破坏。该试验为我们提供了另一种知识，即如何模拟真实的腐蚀损伤，为生产无损检测合格试件提供依据。

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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来源期刊

Koroze a ochrana materialu Materials Science-Materials Science (all)

CiteScore

3.00

自引率

0.00%

发文量

审稿时长

14 weeks