Corrosion behavior of low carbon steels and other non-ferrous metals exposed to a real calcareous soil environment

IF 2.7 4区 材料科学 Q3 ELECTROCHEMISTRY
T. Pérez, M. A. Domínguez-Aguilar, J. Alamilla, Hongbo Liu, A. Contreras, L. M. Quej Ake
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引用次数: 2

Abstract

Abstract The corrosion behavior of four uncoated low carbon steels: X52, X60, X65, and X70, and three non-ferrous metals: copper, bronze, and magnesium, buried in a real calcareous soil, after a year of exposure time was studied. Samples were not cathodically protected on gravimetric testing in field conditions. Severe roughness and color changes occurred in metals and surface evidenced the presence of rust and calcareous deposits. Oxide scale was generated when metals were immersed in calcareous soil for nine months. In field conditions, X52 was the most corrosion resistant and X65 the most susceptible to corrosion. At laboratory level, a real calcareous soil tested by electrochemical methods exhibited the same trend, which was ascribed to difference in microstructure and phase distribution in steels. Corrosion enhanced when X65 was exposed to calcareous soil collected in spring (0.031 mm/year) and rainy summer (0.077 mm/year), as rain enhanced ions mobility and corrosion. Non-ferrous coupons suggested that a passivation process occurred as corrosion rates (CRs) decreased (0.0025–0.0052 mm/year) compared with the results of low carbon steels.
低碳钢和其他有色金属暴露于真实钙质土壤环境中的腐蚀行为
摘要研究了四种未涂覆的低碳钢:X52、X60、X65和X70,以及三种有色金属:铜、青铜和镁,在真正的钙质土壤中暴露一年后的腐蚀行为。在现场条件下进行重量测试时,样品未受到阴极保护。金属和表面出现严重的粗糙度和颜色变化,证明存在铁锈和钙质沉积物。当金属在石灰性土壤中浸泡9个月时,会产生氧化皮。在现场条件下,X52最耐腐蚀,X65最易腐蚀。在实验室水平上,通过电化学方法测试的真实石灰性土壤表现出相同的趋势,这归因于钢中微观结构和相分布的差异。X65暴露于春季(0.031毫米/年)和夏季多雨(0.077毫米/年。有色金属试片表明,与低碳钢的结果相比,随着腐蚀速率(CR)的降低(0.0025–0.0052 mm/年),钝化过程发生了。
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
Corrosion Reviews
Corrosion Reviews 工程技术-材料科学:膜
CiteScore
5.20
自引率
3.10%
发文量
44
审稿时长
4.5 months
期刊介绍: Corrosion Reviews is an international bimonthly journal devoted to critical reviews and, to a lesser extent, outstanding original articles that are key to advancing the understanding and application of corrosion science and engineering in the service of society. Papers may be of a theoretical, experimental or practical nature, provided that they make a significant contribution to knowledge in the field.
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