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Journal of Materials Engineering and Performance

Erschienen in:

31.10.2016

Corrosion of New-Generation Steel in Outer Oil Pipeline Environments

verfasst von: Faysal Fayez Eliyan, J. R. Kish, Akram Alfantazi

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 1/2017

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Abstract

New-generation high-strength pipeline steels are susceptible to corrosion attacks at their outer surfaces, from bicarbonate and carbonate in the hydrated soils in which pipelines are buried. The nature of the corrosion attacks requires implementing modified electrochemical methods by which the corrosion reactions can be studied comprehensively. From that, the findings can be linked to the alloying elements of the new pipeline materials, to modify them from both the strength and corrosion resistance perspectives. This paper presents an electrochemical study on the corrosion of API-X100 steel, in aerated bicarbonate-carbonate solutions, with cyclic voltammetry. At a fast 10 mV/s scan, over ten cycles, the passive films appeared as transparent layers, regardless of bicarbonate and carbonate concentrations. The surface controlled the reactions more than the passive films. The passive films showed evidence of forming gradually with increased cycling. Carbonate competed with bicarbonate during dissolution, decreasing its rate and making passivation faster. Bicarbonate in carbonate solutions catalyzed dissolution and disrupted passivation. The passive films with increased bicarbonate concentrations had higher transpassivation potentials.

Vorheriger Artikel Modeling the Controlled Recrystallization of Particle-Containing Aluminum Alloys

Nächster Artikel A New Understanding on AC Corrosion of Pipeline Steel in Alkaline Environment

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E. Wagner and J.R. Rossum, Prediction of Pitting Rates, American Water Works Association, 1970, 62, p 732

H. Gang and X. Chunchun, Properties of Surface Film on X70 Pipeline Steel in CO₃ ²⁻/HCO₃ ⁻ Environment, Chin. J. Chem. Eng., 2005, 13, p 254

G. Burstein and D. Davies, The Effects of Anions on the Behaviour of Scratched Iron Electrodes in Aqueous Solutions, Corros. Sci., 1980, 20, p 1143CrossRef

D. Brasher, Stability of the Oxide Film on Metals in Relation to Inhibition of Corrosion. II. Dual Role of the Anion in the Mild Inhibition of the Corrosion of Mild Steel, Br. Corros. J., 1968, 4, p 122CrossRef

F. Eliyan, J. Kish, and A. Alfantazi, Voltammetric Analysis on the Formation of Fe(OH)₂ and FeCO₃, and on the Reactivity of Passivation of Steel in Carbonate Solutions, J. Mater. Eng. Perform., 2015, 24, p 2473CrossRef

S. Savoye, L. Legrand, G. Sagon, S. Lecomte, A. Chausse, R. Messina, and P. Toulhoat, Experimental Investigations on Iron Corrosion Products Formed in Bicarbonate/Carbonate-Containing Solutions at 90 °C, Corros. Sci., 2001, 43, p 2049CrossRef

F. Eliyan and A. Alfantazi, Mechanisms of Corrosion and Electrochemical Significance of Metallurgy and Environment with Corrosion of Iron and Steel in Bicarbonate and Carbonate Solutions-a Review, Corrosion, 2014, 70, p 880CrossRef

J. Thomas, T. Nurse, and R. Walker, Anodic Passivation of Iron in Carbonate Solutions, Br. Corros. J., 1970, 5, p 87CrossRef

C. Lee, Z. Qin, M. Odziemkowski, and D. Shoesmith, The Influence of Groundwater Anions on the Impedance Behaviour of Carbon Steel Corroding Under Anoxic Conditions, Electrochim. Acta 2006, 2006, 51, p 1558CrossRef

10.

F. Eliyan and A. Alfantazi, Corrosion of the Heat-Affected Zones (HAZs) of API-X100 Pipeline Steel in Dilute Bicarbonate Solutions at 90 °C-an Electrochemical Evaluation, Corros. Sci., 2013, 74, p 297CrossRef

11.

K. Videm and A. Koren, Corrosion, passivity, and pitting of carbon steel in aqueous solutions of HCO₃ ⁻, CO₂, and Cl⁻, Corrosion, 1993, 49, p 746CrossRef

12.

J. Gonzalez-Rodriguez, M. Casales, V. Salinas-Bravo, J. Albarran, and L. Martinez, Effect of Microstructure on the Stress Corrosion Cracking of X-80 Pipeline Steel in Diluted Sodium Bicarbonate Solutions, Corrosion, 2002, 58, p 584CrossRef

13.

A. Fu and Y. Cheng, Electrochemical Polarization Behavior of X70 Steel in Thin Carbonate/Bicarbonate Solution Layers Trapped Under a Disbonded Coating and Its Implication on Pipeline SCC, Corros. Sci., 2010, 52, p 2511CrossRef

14.

E. Castro, J. Vilche, and A. Arvia, Iron Dissolution and Passivation in K₂CO₃-KHCO₃ Solutions. Rotating Ring Disc Electrode and XPS Studies, Corros. Sci., 1991, 32, p 37CrossRef

15.

C. Rangel, I. Fonseca, and R. Leitão, Some Aspects of the Electrochemical Behavior of Mild Steel in Carbonate/Bicarbonate Solutions, Electrochim. Acta, 1986, 31, p 1659CrossRef

16.

J. Bessone, L. Karakaya, P. Lorbeer, and W. Lorenz, The Kinetics of Iron Dissolution and Passivation, Electochim. Acta, 1977, 22, p 1147CrossRef

17.

D. Davis and G. Burstein, The Effect of Bicarbonate on the Corrosion and Passivation of Iron, Corrosion, 1980, 36, p 416CrossRef

18.

F. Eliyan and A. Alfantazi, Modelling Corrosion Reactions of Steel in a Dilute Carbonate Solution, J. Mater. Eng. Perform., 2016, 25, p 601CrossRef

19.

Z. Lu, C. Huang, D. Huang, and W. Yang, Effects of a Magnetic Field on the Anodic Dissolution, Passivation and Transpassivation Behaviour of Iron in Weakly Alkaline Solutions with or Without Halides, Corros. Sci., 2006, 48, p 3049CrossRef

20.

B. Sherar, P. Keech, Z. Qin, F. King, and D. Shoesmith, Nominally Aerobic Corrosion of Carbon Steel in Near-Neutral pH Saline Environments, Corrosion, 2010, 66, p 45001CrossRef

21.

R. Parkins and S. Zhou, The Stress Corrosion Cracking of C-Mn Steel in CO₂- HCO₃ ⁻-CO₃ ²⁻ Solutions. II. Electrochemical and Other Data, Corros. Sci., 1997, 39, p 175CrossRef

22.

G. Zhang and Y. Cheng, Micro-Electrochemical Characterization and Mott-Schottky Analysis of Corrosion of Welded X70 Pipeline Steel in Carbonate/Bicarbonate Solution, Electrochim. Acta, 2009, 55, p 316CrossRef

23.

C. Valentini and C. Moina, The Electrochemical Behavior of Iron in Stagnant and Stirred Potassium Carbonate-Bicarbonate Solutions in the 0–75 °C Temperature Range, Corros. Sci., 1985, 25, p 985CrossRef

24.

M. El-Naggar, Cyclic Voltammetric Studies of Carbon Steel in Deaerated NaHCO₃ Solution, Journal of Applied Electrochemistry, 2004, 34, p 911CrossRef

25.

C. Rangel and R. Leitao, Voltammetric Studies of the Transpassive Dissolution of Mild Steel in Carbonate/Bicarbonate Solutions, Electrochim. Acta, 1989, 34, p 255CrossRef

26.

F. Mohammadi, F. Eliyan, and A. Alfantazi, Corrosion of Simulated Weld HAZ of API, X-80 Pipeline Steel, Corros. Sci., 2012, 63, p 323CrossRef

27.

E. Castro, C. Valentini, C. Moina, J. Vilche, and A. Arvia, The Influence of Ionic Composition on the Electrodissolution and Passivation of Iron Electrodes in Potassium Carbonate-Bicarbonate Solutions in the 8.4–10.5 pH Range at 25 °C, Corros. Sci., 1986, 26, p 791CrossRef

28.

A. Bard and L. Faulkner, Electrochemical Methods-Fundamentals and Application, 2nd ed., Wiley, New York, 2001

29.

J. von Fraunhofer, The Polarization Behaviour of Mild Steel in Aerated and De-Aerated 1 M NaHCO3, Corros. Sci., 1970, 10, p 245CrossRef

30.

X. Mao, X. Liu, and R. Revie, Pitting Corrosion of Pipeline Steel in Dilute Bicarbonate Solution with Chloride Ions, Corrosion, 1994, 50, p 651CrossRef

31.

J. Kolotyrkin, Pitting Corrosion of Metals, Corrosion, 1963, 19, p 261tCrossRef

32.

J. Thomas and T. Nurse, The Anodic Passivation of Iron in Solutions of Inhibitive Anions, Brit. Corros. J., 1967, 2, p 13CrossRef

Titel: Corrosion of New-Generation Steel in Outer Oil Pipeline Environments
verfasst von: Faysal Fayez Eliyan
J. R. Kish
Akram Alfantazi
Publikationsdatum: 31.10.2016
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 1/2017
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-016-2404-x

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