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Journal of Materials Engineering and Performance

Erschienen in:

27.08.2018

Effect of Tempered Martensite and Ferrite/Bainite on Corrosion Behavior of Low Alloy Steel Used for Flexible Pipe Exposed to High-Temperature Brine Environment

verfasst von: Dazheng Zhang, Xiuhua Gao, Guanqiao Su, Zhenguang Liu, Ningning Yang, Linxiu Du, R. D. K. Misra

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 9/2018

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Abstract

Immersion experiments and electrochemical measurements were carried out to study the effect of tempered martensite and ferrite/bainite on corrosion behavior of low alloy steel used for flexible pipe exposed to high-temperature brine environment in terms of microstructure morphology, corrosion rate, corrosion products characteristics, potentiodynamic polarization curves and electrochemical impedance spectroscopy. The experimental results indicated that the proportion of high-angle grain boundaries of tempered martensite steel was greater than ferrite/bainite steel. The corrosion rate of ferrite/bainite steel was lower than tempered martensite steel. With increasing immersion time, the structure of corrosion products formed on the surface of ferrite/bainite steel was more compact and denser than tempered martensite steel. In addition, the current density of ferrite/bainite steel was lower than tempered martensite steel. The charge transfer resistance and total impedance of ferrite/bainite steel were larger than tempered martensite steel. Thus, the corrosion resistance of ferrite/bainite steel exposed to high-temperature brine environment was excellent compared to the tempered martensite steel.

Vorheriger Artikel Deformation Behavior of AM30 Magnesium Alloy

Nächster Artikel Variation of the Corrosion Behavior Prior to Crack Initiation of E690 Steel Fatigued in Simulated Seawater with Various Cyclic Stress Levels

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S.M. O’Halloran, A.D. Connaire, A.M. Harte, and S.B. Leen, Modelling of Fretting in the Pressure Armour Layer of Flexible Marine Risers, Tribol. Int., 2016, 100, p 306–316CrossRef

M.M. Zhang, X.Q. Chen, S.X. Fu, Y.S. Guo, and L.X. Ma, Theoretical and Numerical Analysis of Bending Behavior of Unbonded Flexible Risers, Mar. Struct., 2015, 44, p 311–325CrossRef

M.G. Tang, Q.Z. Lu, J. Yan, and Q.J. Yue, Buckling Collapse Study for the Carcass Layer of Flexible Pipes Using a Strain Energy Equivalence Method, Ocean Eng., 2016, 111, p 209–217CrossRef

Z.G. Liu, X.H. Gao, L.X. Du, J.P. Li, Y. Kuang, and B. Wu, Corrosion Behavior of Low-Alloy Steel with Martensite/Ferrite Microstructure at Vapor-Saturated CO₂ and CO₂-Saturated Brine Conditions, Appl. Surf. Sci., 2015, 351, p 610–623CrossRef

W.D. Ruan, Y. Bai, and S. Yuan, Dynamic Analysis of Unbonded Flexible Pipe with Bend Stiffener Constraint and Bending Hysteretic Behavior, Ocean Eng., 2017, 130, p 583–596CrossRef

N.H. Østergaard, A. Lyckegaard, and J.H. Andreasen, On Modelling of Lateral Buckling Failure in Flexible Pipe Tensile Armour Layers, Mar. Struct., 2012, 27, p 64–81CrossRef

M. Gautam, P. Potluri, K.B. Katnam, V. Jha, J. Leyland, J. Latto, and N. Dodds, Hybrid Composite Wires for Tensile Armours in Flexible Risers: Manufacturing and Mechanical Characterization, Compos. Struct., 2016, 150, p 73–83CrossRef

C. Taravel-Condat, N. Desamais, Qualification of High Strength Carbon Steel Wires for Use in Specific Annulus Environment of Flexible Pipes Containing CO₂ and H₂S, in Proceedings of 25th International Conference on Offshore Mechanics and Arctic Engineering, Hamburg, Germany, June 4–9, 2006 (2006), pp. 1–7.

N. Désamais, A. Félix-Henry, C. Taravel-Condat, A. Drouës, Use of High Strength Steel Wires for Flexible Pipe in Low Sour Service Conditions: Impact on Deep Water Applications, in Proceedings of the Sixteenth (2007) International Offshore and Polar Engineering Conference, Lisbon, Portugal, July 1–6, 2007 (2007) pp. 1033–1038.

10.

T. Kamimura, S. Hara, H. Miyuki, M. Yamashita, and H. Uchida, Composition and Protective Ability of Rust Layer Formed on Weathering Steel Exposed to Various Environments, Corros. Sci., 2006, 48, p 2799–2812CrossRef

11.

M. Yamashita, H. Miyuki, Y. Masuda, H. Nagano, and T. Misawa, The Long Term Growth of the Protective Rust Layer Formed on Weathering Steel by Atmospheric During a Quarter of a Century, Corros. Sci., 1994, 36, p 283–299CrossRef

12.

L. Hao, S.X. Zhang, J.H. Dong, and W. Ke, Evolution of Corrosion of MnCuP Weathering Steel Submitted to Wet/Dry Cyclic Tests in a Simulated Coastal Atmosphere, Corros. Sci, 2012, 58, p 175–180CrossRef

13.

R.M. Cornell and U. Schwertmann, The Iron Oxides: Structure, Properties, Reactions, Occurrence, and Uses, VCH, Weinheim, 1996

14.

D. de la Fuente, I. Díaz, J. Simancas, B. Chico, and M. Morcillo, Long-Term Atmospheric Corrosion of Mild Steel, Corros. Sci., 2011, 53, p 604–617CrossRef

15.

J.G. Castaño, C.A. Botero, A.H. Restrepo, E.A. Agudelo, E. Correa, and F. Echeverría, Atmospheric Corrosion of Carbon Steel in Colombia, Corros. Sci., 2011, 52, p 216–223CrossRef

16.

N.W. Dai, Q.M. Chen, J.X. Zhang, X. Zhang, Q.Z. Ni, Y.M. Jiang, and J. Li, The Corrosion Behavior of Steel Exposed to a DC Electric Field in the Simulated Wet-Dry Cyclic Environment, Mater. Chem. Phys., 2017, 192, p 190–197CrossRef

17.

D. de la Fuente, J. Alcántara, B. Chico, I. Díaz, J.A. Jiménez, and M. Morcillo, Characterisation of Rust Surfaces Formed on Mild Steel Exposed Tomarine Atmospheres Using XRD and SEM/Micro-Raman Techniques, Corros. Sci., 2016, 110, p 253–264CrossRef

18.

X.H. Chen, J.H. Dong, E.H. Han, and W. Ke, Effect of Ni on the Ion-Selectivity of Rust Layer on Low Alloy Steel, Mater. Lett., 2007, 61, p 4050–4053CrossRef

19.

Y.S. Choi, J.J. Shim, and J.G. Kim, Effects of Cr, Cu, Ni and Ca on the Corrosion Behavior of Low Carbon Steel in Synthetic Tap Water, J. Alloy. Compd., 2005, 391, p 162–169CrossRef

20.

Y.H. Qian, C.H. Ma, D. Niu, J.J. Xu, and M.S. Li, Influence of Alloyed Chromium on the Atmospheric Corrosion Resistance of Weathering Steels, Corros. Sci., 2013, 74, p 424–429CrossRef

21.

A.H. Chen, J.Q. Xu, R. Li, and H.L. Li, Corrosion Resistance of High Performance Weathering Steel for Bridge Building Applications, J. Iron. Steel Res. Int., 2012, 19, p 59–63CrossRef

22.

H.E. Townsend, Effects of Alloying Elements on the Corrosion of Steel in Industrial Atmospheres, Corrosion, 2001, 57, p 497–501CrossRef

23.

L. Hao, S.X. Zhang, J.H. Dong, and W. Ke, A Study of the Evolution of Rust on Mo-Cu-Bearing Fire-Resistant Steel Submitted to Simulated Atmospheric Corrosion, Corros. Sci., 2012, 54, p 244–250CrossRef

24.

Z.G. Liu, X.H. Gao, J.P. Li, L.X. Du, C. Yu, P. Li, and X.L. Bai, Corrosion Behaviour of Low-Alloy Martensite Steel Exposed to Vapour-Saturated CO₂ and CO₂-Saturated Brine Conditions, Electrochim. Acta, 2016, 213, p 842–855CrossRef

25.

M. Gao, X. Pang, and K. Gao, The Growth Mechanism of CO₂ Corrosion Product Films, Corros. Sci., 2011, 53, p 557–568CrossRef

26.

W. Han, C. Pan, Z.Y. Wang, and G.C. Yu, A Study on the Initial Corrosion Behavior of Carbon Steel Exposed to Outdoor Wet-Dry Cyclic Condition, Corros. Sci., 2014, 88, p 89–100CrossRef

27.

U.R. Evans and C.A.J. Taylor, Mechanism of Atmospheric Rusting, Corros. Sci., 1972, 12, p 227–246CrossRef

28.

Y.L. Zhou, J. Chen, and Z.Y. Liu, Corrosion Behavior of Rusted 550 MPa Grade Offshore Platform Steel, J. Iron Steel Res. Int., 2013, 20, p 66–73CrossRef

29.

F. Chai, S. Jiang, and C.F. Yang, Effect of Cr on Characteristic of Rust Layer Formed on Low Alloy Steel in Flow-accelerated Corrosion Environment, J. Iron. Steel Res. Int., 2016, 23, p 602–607CrossRef

30.

N.W. Dai, J.X. Zhang, Q.M. Chen, B. Yi, F.H. Cao, and J.Q. Zhang, Effect of the Direct Current Electric Field on the Initial Corrosion of Steel in Simulated Industrial Atmospheric Environment, Corros. Sci., 2015, 99, p 295–303CrossRef

31.

J. Alcántara, B. Chico, I. Díaz, D. de la Fuente, and M. Morcillo, Airborne Chloride Deposit and Its Effect on Marine Atmospheric Corrosion of Mild Steel, Corros. Sci., 2015, 97, p 74–88CrossRef

32.

Z.G. Liu, X.H. Gao, L.X. Du, J.P. Li, P. Li, and R.D.K. Misra, Comparison of Corrosion behavIors of Low-Alloy Steel Exposed to Vapor-Saturated H₂S/CO₂ and H₂S/CO₂-Saturated Brine Environments, Mater. Corros., 2017, 68, p 566–579CrossRef

33.

G.Q. Su, X.H. Gao, D.Z. Zhang, C.S. Cui, L.X. Du, C. Yu, J. Hu, and Z.G. Liu, Offset Effect of Chromium on the Adverse Impact of Manganese in a Low-C Medium-Mn Steel with Reversed Austenite in the Neutral Salt Spray Condition, Corrosion, 2017, 73, p 1367–1380CrossRef

34.

D.Z. Zhang, X.H. Gao, G.Q. Su, L.X. Du, Z.G. Liu, and J. Hu, Corrosion Behavior of Low-C Medium-Mn Steel in Simulated Marine Immersion and Splash Zone Environment, J. Mater. Eng. Perform., 2017, 26, p 2599–2607CrossRef

35.

D. Song, W. Sun, J.Y. Jiang, H. Ma, J.C. Zhang, and Z.J. Cheng, Corrosion Behavior of Cr Micro-alloyed Corrosion-resistant Rebar in Neutral Cl⁻-containing Environment, J. Iron. Steel Res. Int., 2016, 23, p 608–617CrossRef

36.

J.H. Luo, L. Zhang, L.F. Li, F.P. Yang, W.F. Ma, K. Wang, and X.W. Zhao, Electrochemical corrosion behaviors of the X90 linepipe steel in NS4 solution, Nat. Gas Ind. B, 2016, 3, p 346–351CrossRef

37.

J. Li, J.S. Wu, Z.H. Wang, S.Q. Zhang, X.G. Wu, Y.H. Huang, and X.G. Li, The Effect of Nanosized NbC Precipitates on Electrochemical Corrosion Behavior of High-Strength Low-Alloy Steel in 3.5%NaCl Solution, Int. J. Hydrogen Energ., 2017, 42, p 22175–22184CrossRef

38.

R. Wang, S.J. Luo, M. Liu, and Y.N. Xue, Electrochemical Corrosion Performance of Cr and Al Alloy Steels Using a J55 Carbon Steel as Base Alloy, Corros. Sci., 2014, 85, p 270–279CrossRef

Titel: Effect of Tempered Martensite and Ferrite/Bainite on Corrosion Behavior of Low Alloy Steel Used for Flexible Pipe Exposed to High-Temperature Brine Environment
verfasst von: Dazheng Zhang
Xiuhua Gao
Guanqiao Su
Zhenguang Liu
Ningning Yang
Linxiu Du
R. D. K. Misra
Publikationsdatum: 27.08.2018
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 9/2018
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-018-3587-0

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