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Journal of Materials Engineering and Performance

Erschienen in:

21.12.2015

Influence of Dispersoids on Corrosion Behavior of Oxide Dispersion-Strengthened 18Cr Steels made by High-Energy Milling

verfasst von: M. Nagini, A. Jyothirmayi, R. Vijay, Tata N. Rao, A. V. Reddy, Koteswararao V. Rajulapati, G. Sundararajan

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 2/2016

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Abstract

Corrosion behavior of 18Cr ferritic steel with and without yttria produced by high-energy milling followed by hot extrusion was studied in 3.5% NaCl solution using electrochemical and immersion techniques. The cyclic polarization study showed that pitting corrosion is predominant in all the materials. The pitting rate is higher in yttria dispersed steels and also increases with milling time. Impedance analysis revealed the formation of better corrosion resistance film on the surface of the steel without yttria. Potentiodynamic polarization studies indicated that the corrosion rate decreased up to 48 h of exposure time and increased beyond 48 h. The increase in corrosion rate beyond 48 h is due to the porous passive film. The corrosion behavior of all the materials in immersion studies followed the same trend as observed in electrochemical studies. Even though the corrosion rate of yttria dispersed 18Cr ferritic steel is less than that of the base material, the difference is marginal. The presence of dispersoids appears to promote nucleation of pits when compared to the steel without the dispersoids.

Vorheriger Artikel Effect of Welding Heat Input on the Corrosion Resistance of Carbon Steel Weld Metal

Nächster Artikel Compressive Behavior and Damping Property of Mg Alloy/SiCp Composite Foams

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S.J. Zinkle and J.T. Busby, Structural Materials for Fission & Fusion Energy, Mater. Today, 2009, 12, p 12–19CrossRef

K.L. Murty and I. Charit, Structural Materials for Gen-IV Nuclear Reactors: Challenges and Opportunities, J. Nucl. Mater., 2008, 383, p 189–195CrossRef

A. Alamo, V. Lambard, X. Averty, and M.H. Mathon, Assessment of ODS-14%Cr Ferritic Alloy for High Temperature Applications, J. Nucl. Mater., 2004, 329–333, p 333–337CrossRef

G.R. Odette, M.J. Alinger, and B.D. Wirth, Recent Developments in Irradiation-Resistant Steels, Annu. Rev. Mater. Res., 2008, 38, p 471–503CrossRef

S. Ukai and M. Fujiwara, Perspective of ODS Alloys Application in Nuclear Environments, J. Nucl. Mater., 2002, 307–311, p 749–757CrossRef

S. Ukai, Oxide Dispersion Strengthened Steels, Comp. Nucl. Mater., 2012, 4, p 241–271CrossRef

M.K. Miller, D.T. Hoelzer, E.A. Kenik, and K.F. Russell, Stability of Ferritic MA/ODS Alloys at High Temperatures, Intermetallics, 2005, 13, p 387–392CrossRef

R.L. Klueh, J.P. Shingledecker, R.W. Swindeman, and D.T. Hoelzer, Oxide Dispersion-Strengthened Steels: A Comparison of Some Commercial and Experimental Alloys, J. Nucl. Mater., 2005, 341, p 103–114CrossRef

H.S. Cho, A. Kimura, S. Ukai, and M. Fujiwara, Corrosion Properties of Oxide Dispersion Strengthened Steels in Super-Critical Water Environment, J. Nucl. Mater., 2004, 329–333, p 387–391CrossRef

10.

A. Kimura, H.S. Cho, N. Toda, R. Kasada, K. Yutani, H. Kishimoto, N. Iwata, S. Ukai, and M. Fujiwara, High Burn Up Fuel Cladding Materials R&D for Advanced Nuclear Systems: Nano-Sized Oxide Dispersion Strengthening Steels, J. Nucl. Sci. Technol., 2007, 44, p 323–328CrossRef

11.

T. Kaito, T. Narita, S. Ukai, and Y. Matsuda, High Temperature Oxidation Behavior of ODS Steels, J. Nucl. Mater., 2004, 329–333, p 1388–1392CrossRef

12.

J.H. Kim, K.M. Kim, T.S. Byun, D.W. Lee, and C.H. Park, High Temperature Oxidation Behavior of Nano-structured Ferritic Oxide Dispersion Strengthened Alloys, Thermochem. Acta, 2014, 579, p 1–8CrossRef

13.

M.J. Alinger, G.R. Odette, and D.T. Hoelzer, On the Role of Alloy Composition and Processing Parameters in Nanocluster Formation and Dispersion Strengthening in Nanostructured Ferritic Alloys, Acta Mater., 2009, 57, p 392–406CrossRef

14.

J.H. Lee, Development of Oxide Dispersion Strengthened Ferritic Steels with and Without Aluminum, Front. Energy, 2012, 6, p 29–34CrossRef

15.

J.H. Lee, R. Kasada, A. Kimura, T. Okuda, M. Inoue, S. Ukai, S. Ohnuki, T. Fujisawa, and F. Abe, Influence of Alloy Composition and Temperature on Corrosion Behavior of ODS Ferritic Steels, J. Nucl. Mater., 2011, 417, p 1225–1228CrossRef

16.

H.L. Hu, Z.J. Zhou, L. Liao, L.F. Zhang, M. Wang, S.F. Li, and C.C. Ge, Corrosion Behavior of a 14Cr-ODS Steel in Supercritical Water, J. Nucl. Mater., 2013, 437, p 196–200CrossRef

17.

H. Je and A. Kimura, Stress corrosion Cracking Susceptibility of Oxide Dispersion Strengthened Ferritic Steel in Supercritical Pressurized Water Dissolved with Different Hydrogen and Oxygen Contents, Corros. Sci., 2014, 78, p 193–199CrossRef

18.

F.D. Gabriele, S. Amore, C. Scaiola, E. Arato, D. Giuranno, R. Novakovic, and E. Ricci, Corrosion Behaviour of 12Cr-ODS Steel in Molten Lead, Nucl. Eng. Des., 2014, 280, p 69–75CrossRef

19.

O. Yeliseyeva, V. Tsisara, and Z. Zhou, Corrosion Behavior of Fe-14Cr-2W and Fe-9Cr-2W ODS Steels in Stagnant Liquid Pb with Different Oxygen Concentration at 550 and 650 °C, J. Nucl. Mater., 2013, 442, p 434–443CrossRef

20.

P. Hosemann, H.T. Thau, A.L. Johnson, S.A. Maloy, and N. Li, Corrosion of ODS Steels in Lead-Bismuth Eutectic, J. Nucl. Mater., 2008, 373, p 246–253CrossRef

21.

K. Lambrinou, V. Koch, G. Coen, J. Van den Bosch, and C. Schroer, Corrosion Scales on Various Steels After Exposure to Liquid Lead-Bismuth Eutectic, J. Nucl. Mater., 2014, 450, p 244–255CrossRef

22.

T. Furukawa, S. Kato, and E. Yoshida, Compatibility of FBR Materials with Sodium, J. Nucl. Mater., 2009, 392, p 249–254CrossRef

23.

E. Yoshida and S. Kato, Sodium Compatibility of ODS Steel at Elevated Temperature, J. Nucl. Mater., 2004, 329–333, p 1393–1397CrossRef

24.

B. El-Dasher, J. Farmer, J. Ferreira, M. Serrano de Caro, A. Rubenchik, and A. Kimura, Corrosion of Oxide Dispersion Strengthened Iron-Chromium Steels and Tantalum in fluoride Salt Coolant: An In Situ Compatibility Study for Fusion and Fusion-fission Hybrid Reactor Concepts, J. Nucl. Mater., 2011, 419, p 15–23CrossRef

25.

S. Ningshen, M. Sakairi, K. Suzuki, and S. Ukai, Corrosion Resistance of 9% Cr Oxide Dispersion Strengthened Steel in Different Electrolytic Media, Corrosion, 2013, 69, p 863–874CrossRef

26.

S. Ningshen, M. Sakairi, K. Suzuki, and S. Ukai, The Passive film Characterization and Anodic Polarization Behavior of 11% Cr Ferritic/Martensitic and 15% Cr Oxide Dispersion Strengthened Steels in Different Electrolytic Solutions, Appl. Surf. Sci., 2013, 274, p 345–355CrossRef

27.

M. Sakairi, S. Ningshen, K. Suzuki, and S. Ukai, Corrosion Study and Passive Film Characterization of 11% Cr F/M and 15% Cr ODS Steels, J Civil Eng Archit, 2013, 7, p 940–955

28.

S. Ningshen, M. Sakairi, K. Suzuki, and S. Ukai, The Surface Characterization and Corrosion Resistance of 11% Cr Ferritic/Martensitic and 9%-15% Cr ODS Steels for Nuclear Fuel Reprocessing Application, J. Solid State Electrochem., 2014, 18, p 411–425CrossRef

29.

S. Ningshen, M. Sakairi, K. Suzuki, and S. Ukai, The Corrosion Resistance and Passive film Compositions of 12% Cr and 15% Cr Oxide Dispersion Strengthened Steels in Nitric Acid Media, Corros. Sci., 2014, 78, p 322–334CrossRef

30.

J. Isselin, R. Kasada, and A. Kimura, Effects of Aluminum on the Corrosion Behavior of 16% Cr ODS Ferritic Steels in a Nitric Acid Solution, J. Nucl. Sci. Technol., 2011, 48, p 169–171CrossRef

31.

M. Terada, A.J.O. Zimmermann, H.R.Z. Sandim, I. Costa, and A.F. Padilha, Corrosion Behavior of Eurofer 97 and ODS-Eurofer Alloys Compared to Traditional Stainless Steels, J. Appl. Electrochem., 2011, 41, p 951–959CrossRef

32.

H. Hu, Z. Zhou, M. Li, L. Zhang, M. Wang, S. Li, and C. Ge, Study of the Corrosion Behavior of a 18Cr-Oxide Dispersion Strengthened Steel in Supercritical Water, Corros. Sci., 2012, 65, p 209–213CrossRef

33.

B. Gwinner, M. Auroy, D. Mas, A. Saint Jevin, and S. Pasquier-Tilliette, Impact of the Use of the Ferritic/Martensitic ODS Steels Cladding on the Fuel Reprocessing PUREX Process, J. Nucl. Mater., 2012, 428, p 110–116CrossRef

34.

P. Dubuisson, Y. de Carlan, V. Garat, and M. Blat, ODS Ferritic/Martensitic alloys for Sodium Fast Reactor Fuel Pin Cladding, J. Nucl. Mater., 2012, 428, p 6–12CrossRef

35.

G. Sundararajan, P. Sudharshan Phani, A. Jyothirmayi, C. Ravi, and C. Gundakaram, The Influence of Heat Treatment on the Microstructural, Mechanical and Corrosion Behaviour of Cold Sprayed SS 316L Coatings, J. Mater. Sci., 2009, 44, p 2320–2326CrossRef

36.

G.S. Frankal, Pitting Corrosion of Metals: A Review of the Critical Factors, J. Electrochem. Soc., 1998, 145, p 2186–2198CrossRef

37.

L.M. Calle, R.D Vinje, and L.G. MacDowell, Electrochemical evaluation of stainless steels in acidified sodium chloride solutions, Corrosion/2004, Paper No. 04303 (Houston, TX: NACE)

38.

M. Darabara, L. Bourithis, S. Zinelis, and G.D. Papadimitriou, Susceptibility to Localized Corrosion of Stainless Steel and NiTi Endodontic Instruments in Irrigating Solutions, Int. Endod. J., 2004, 37, p 705–710CrossRef

39.

A.H. Kandil, A.A. Fahmy Waheed, and H.M.T. Tawfik, Water Chemistry Effect on Corrosion of Nuclear Fuel Cladding Material, Zircaloy-4 (Zr-4), Int. J. Adv. Res., 2014, 2, p 149–162

40.

W.S. Tait, An introduction to Electrochemical Corrosion Testing for Practicing Engineers and Scientists, Pair Docs Publication, Madison, 1994

41.

E. Klar and P.K. Samal, Powder Metallurgy Stainless Steels: Processing, Microstructures and Properties, ASM International, Materials Park, 2007, p 155

42.

Z. Szklarska-Smialowska, Mechanism of Pit Nucleation by Electrical Breakdown of the Passive Film, Corros. Sci., 2002, 44, p 1143–1149CrossRef

43.

L. Bertolini, B. Elsener, P. Pedeferri, E. Redaelli, and R.B. Polder, Corrosion of Steel in Concrete: Prevention, Diagnosis, Repair, Wiley-VCH, Weinheim, 2013CrossRef

44.

C. Liu, Q. Bi, A. Leyland, and A. Matthews, An Electrochemical Impedance Spectroscopy Study of the Corrosion Behaviour of PVD Coated Steels in 0.5 N NaCl Aqueous Solution: Part II. EIS Interpretation of Corrosion Behaviour, Corros. Sci., 2003, 45, p 1257–1273CrossRef

45.

R.T. Loto, Pitting Corrosion Evaluation of Austenitic Stainless Steel Type 304 in Acid Chloride Media, J. Mater. Environ. Sci., 2013, 4, p 448–459

Titel: Influence of Dispersoids on Corrosion Behavior of Oxide Dispersion-Strengthened 18Cr Steels made by High-Energy Milling
verfasst von: M. Nagini
A. Jyothirmayi
R. Vijay
Tata N. Rao
A. V. Reddy
Koteswararao V. Rajulapati
G. Sundararajan
Publikationsdatum: 21.12.2015
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 2/2016
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-015-1859-5

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