Repassivation behavior of X65 pipeline steel in fuel grade ethanol and its implications for the stress corrosion cracking mechanism

Lindsey R. Goodman; Preet M. Singh

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Repassivation behavior of X65 pipeline steel in fuel grade ethanol and its implications for the stress corrosion cracking mechanism

机译：X65管线钢在燃料级乙醇中的再钝化行为及其对应力腐蚀开裂机理的影响

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Common fuel grade ethanol (FGE) constituents affect SCC susceptibility of pipeline steels. Scratch testing employed to study effects of chloride, oxygen, water, and pHe on repassivation kinetics of X65 steel in simulated FGE and FGE revealed increased current density and decreased current decay rate from the bared steel as CI~- concentration increased, and incomplete current decay in deaerated environments. Using an Avrami kinetics-based film growth model, current was deconvoluted into dissolution and film formation components. The relationship between repassivation kinetics SCC of the pipeline steel/FGE sys tem is discussed in terms of the previously proposed film rupture/anodic dissolution SCC mechanism.

机译：常见的燃料级乙醇（FGE）成分会影响管线钢的SCC敏感性。用于研究氯化物，氧气，水和pHe对模拟FGE和FGE中X65钢再钝化动力学影响的划痕测试显示，随着CI〜-浓度增加，电流密度增加，裸钢电流衰减率降低，并且电流衰减不完全在脱气的环境中。使用基于Avrami动力学的膜生长模型，电流被解卷积为溶解和膜形成成分。根据先前提出的膜破裂/阳极溶解SCC机理，讨论了管道钢/ FGE系统的再钝化动力学SCC之间的关系。

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《Corrosion science》 |2012年第12期|p.238-248|共11页
作者
Lindsey R. Goodman; Preet M. Singh;
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作者单位

Georgia Institute of Technology, School of Materials Science and Engineering, 771 Ferst Dr. NW Atlanta, GA 30332, USA;

Georgia Institute of Technology, School of Materials Science and Engineering, 771 Ferst Dr. NW Atlanta, GA 30332, USA;

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正文语种 eng
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关键词
A. Carbon steel; B. Scratching electrode; B. Potentiostatic; C. Anodic dissolution; C. Repassivation; C. Stress corrosion;

机译：A.碳钢;B.划伤电极;B.恒电位;C.阳极溶解;C.钝化;C.应力腐蚀;

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1. Localized Corrosion of Carbon Steel and Its Implications on the Mechanism and Inhibition of Stress Corrosion Cracking in Fuel-Grade Ethanol [J] . F Gui N Sridhar J A Beavers Corrosion . 2010,第12期

机译：碳钢的局部腐蚀及其对燃料级乙醇应力腐蚀开裂的机理和抑制作用
2. Effect of Ethanol Chemistry on Stress Corrosion Cracking of Carbon Steel in Fuel-Grade Ethanol [J] . X Lou D Yang P M Singh Corrosion . 2009,第12期

机译：乙醇化学性质对燃料级乙醇中碳钢应力腐蚀开裂的影响
3. High-pH inclined stress corrosion cracking in Australian and Canadian gas pipeline X65 steels [J] . Lavigne O., Gamboa E., Griggs J., Materials Science and Technology: MST: A publication of the Institute of Metals . 2016,第7a8期

机译：澳大利亚和加拿大的天然气管道X65钢的高pH斜应力腐蚀开裂
4. Formation and Breakdown of Passive Film on X65 Pipeline Steel in Fuel Grade Ethanol Environments and its Implications for Stress Corrosion Cracking [C] . Lindsey R. Goodman, Jamshad Mahmood, Mark T. Braswell, Corrosion conference and expo;Corrosion 2012 . 2012

机译：X65管线钢在燃料级乙醇环境中钝化膜的形成，破裂及其对应力腐蚀开裂的影响
5. Stress corrosion cracking of X65 pipeline steel in fuel grade ethanol environments. [D] . Goodman, Lindsey R. 2012

机译：X65管线钢在燃料级乙醇环境中的应力腐蚀开裂。
6. Combined Effect of Alternating Current Interference and Cathodic Protection on Pitting Corrosion and Stress Corrosion Cracking Behavior of X70 Pipeline Steel in Near-Neutral pH Environment [O] . Liwei Wang, Lianjun Cheng, Junru Li, 2018

机译：交流干扰和阴极保护对X70管线钢在近中性pH环境下点蚀和应力腐蚀开裂行为的综合影响
7. Combined Effect of Alternating Current Interference and Cathodic Protection on Pitting Corrosion and Stress Corrosion Cracking Behavior of X70 Pipeline Steel in Near-Neutral pH Environment [O] . Liwei Wang, Lianjun Cheng, Junru Li, 2018

机译：交流干扰和阴极保护对近中性pH环境中X70管道钢蚀腐蚀和应力腐蚀开裂行为的综合作用
8. Effect of Ethanol Fuel and Microbiologically Influenced Corrosion on the Fatigue Crack Growth Behavior of Pipeline Steels [R] . Sowards, J. W., Weeks, T. D., McColskey, J. D., 2011

机译：乙醇燃料和微生物腐蚀对管线钢疲劳裂纹扩展行为的影响

Repassivation behavior of X65 pipeline steel in fuel grade ethanol and its implications for the stress corrosion cracking mechanism

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