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HomeMaterials Science ForumMaterials Science Forum Vols. 798-799Phases Obtained from Heat Treatment of Mn-Co-Based...

Phases Obtained from Heat Treatment of Mn-Co-Based Coatings Deposited by Dip Coating

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Abstract:

Studies have been performed to improve the oxidation resistance of ferritic stainless steels at high temperatures because these materials have been proposed for the manufacture of interconnectors for solid oxide fuel cell (SOFCs) and solid oxide electrolysis cells (SOECs) operating at intermediate temperatures (IT-SOFCs). Among the coatings employed, ceramic spinel-type oxides have been the most frequently applied. In this context, Mn-Co-based coatings were deposited on ferritic stainless steel (AISI 430) in this study using a dip-coating technique. The obtained coatings were characterized with respect to their morphology by SEM, their elementary composition by EDS and their structure by XRD. It was possible to produce continuous and adherent Mn-Co-based coatings on the surface of the metallic substrates.

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Brazilian Ceramic Conference 57

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Periodical:

Materials Science Forum (Volumes 798-799)

Pages:

323-327

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.798-799.323

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Online since:

June 2014

Authors:

A. Bervian*, Matias Angelis Korb, I.D. Savaris, G.A. Ludwig, L.S. Barreto, G. Gauthier, Célia de Fraga Malfatti

Keywords:

Dip-Coating, Ferritic Stainless Steel, Mn-Co-Based Coatings

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© 2014 Trans Tech Publications Ltd. All Rights Reserved

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[1] W. Qu, J. Li and D.G. Ivey: Journal of Power Sources Vol. 138 (2004), p.162.

[2] E.H.G. Neto: Fuel Cell Energy (2005), p.240.

[3] A.M. Huntz, A. Reckmann, C. Haut, C. Sévérac, M. Herbst, F.C.T. Resende and A.C.S. Sabioni: Materials Science and Engineering Vol. . 447 (2007), p.266.

DOI: 10.1016/j.msea.2006.10.022

[4] A.M. Huntz, A. Reckmann, C. Haut, C. Sévérac, M. Herbst, F.C.T. Resende and A.C.S. Sabioni: Solid State Ionics Vol. 143 (2001), p.131.

[5] L. Cooper, S. Benhaddad, A. Wood and D.G. Ivey: Journal of Power Sources Vol. 184 (2008), p.220.

[6] T. Brylewski, M. Nanko, T. Maruyama and P. Kazimierz: Solid State Ionics Vol. 143 (2010), p.131.

[7] T. Horita, K. Yamaji, H. Yokokawa, A. Toji, T. Uehara, K. Ogasawara, H. Kameda Y. Matsuzaki and S. Yamashita: International Journal of Hydrogen Energy Vol. 33 (2008), p.6308.

DOI: 10.1016/j.ijhydene.2008.07.118

[8] J.W. Stevenson, Z.G. Yang, G.G. Xia, Z. Nie and J.D. Templeton: Journal of Power Sources Vol. 143 (2013), p.256.

[9] T. Brylewski, M. Nanko, T. Maruyama and K. Przybylski: Solid State Ionics Vol. 143 (2001), p.131.

[10] H.S. Seo, G. Jin, J. Ho Jun, D.H. Kimb and K.Y. Kim: Journal of Power Sources Vol. 178 (2008), p.1.

[11] X. Chen, P.Y. Hou, C.P. Jacobson, S.J. Visco and L.C. Johnge: Solid State Ionics Vol. 176 (2005), p.425.

[12] P. Piccardo, P. Gannon, S. Chevalier, M. Viviani, A. Barbucci, G. Caboche, R. Amendola and S. Fontana: Surface & Coatings Technology Vol. 202 (2007), p.1221.

DOI: 10.1016/j.surfcoat.2007.07.096

[13] M.P. Brady, B.A. Pint, Z.G. Lu, J.H. Zhu, C.E. Milliken, E.D. Kreidler, L. Miller, T.R. Armstrong, L.R. Walker: Oxidation of Metals (2006), 237.

[14] C. Ostwald and H.J. Grabke; Corrosion Science Vol. 46 (2004), p.1113.

[15] J.M. Rakowski, G.H. Meier, F.S. Pettit, F. Dettenwanger, E. Schumann and M. Rühle: Scripta Materialia Vol. 35 (1996), p.1417.

DOI: 10.1016/s1359-6462(96)00315-6

[16] M.C. García-Alonso, M.L. Escudero, J.L. González-Carrasco and J. Chao: ISIJ international Vol. 41 (2001), p.56.

[17] W. Qu, J. Li and D.G. Ivey: Journal of Power Sources Vol. 138 (2004), p.162.

[18] S.M.C. Fernandes, L.V. Ramanathan: Materials Research Vol. 7 (2004), p.135.

[19] J.W. Fergus: Materials Science and Engineering Vol. 397 (2005), p.271.

[20] W. Zhang, J. Pu, B. Chi and L. Jian: Journal of Power Sources Vol. 196 (2011), p.5591.

[21] L. Cooper, S. Benhaddad, A. Wood and D.G. Ivey: Journal of Power Sources Vol. 184 (2008), p.220.

[22] M.A. Korb, I.D. Savaris, E.E. Feistauer, L.S. Barreto, N.C. Heck, I.L. Müller and C.F. Malfatti: International Journal of Hydrogen Energy Vol. 38 (2013), p.4760.

DOI: 10.1016/j.ijhydene.2013.02.019

[23] J. Wu, C.D. Johnson, R.S. Gemmen and X. Liu: Journal of Power Sources Vol. 189 (2009).

[24] S. Geng, S. Qi, Q. Zhao, S. Zhu and F. Wang: International Journal of Hydrogen Energy Vol. 37 (2012), p.10850.

[25] H. Zhang, J. Wu, X. Liu and A. Baker: International Journal of Hydrogen Energy Vol. 38 (2013), p.5075.

[26] X. Chen, P.Y. Hou, C.P. Jacobson, S.T. Visco and L.C. Jonghe: Solid State Ionics Vol. 176 (2005), p.425.