Effect of Sandblasting on the Oxidation and Corrosion Behaviour of an Oxide-Dispersed Strengthened (ODS) FeCrAl Alloy.

García-Alonso, M. C.; Escudero, M.L.; González-Carrasco, José Luis; Chao, Jesús

doi:10.2355/isijinternational.41.56

Cited by 8 publications

(2 citation statements)

References 20 publications

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“…De acordo com estudos, observa-se tentativas no intuito de melhorar a espessura do óxido por diferentes meios, por meio do controle da composição química do aço inoxidável ( 16), pela aplicação de tratamentos mecânicos superficiais (17,18,19) ou pela deposição de revestimentos protetores, desde que tenham alta condutividade elétrica em temperaturas elevadas (20).…”

Section: Introductionunclassified

Obtenção de revestimento à base de Mn e Co por dip-coating sobre aço inoxidável ferrítico

Bervian¹,

Korb²,

Ludwig³

et al. 2021

Lat. Americ. J. of Develop.

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Estudos vêm sendo desenvolvidos para melhorar a resistência à oxidação em temperaturas elevadas do aço inoxidável ferrítico, os quais têm sido propostos para fabricação de interconectores de células a combustível do tipo óxido sólido de temperatura intermediária (IT-SOFC). Dentre os revestimentos empregados, os revestimentos cerâmicos de óxidos do tipo espinélio têm sido os mais aplicados. Nesse contexto, no presente trabalho foram obtidos revestimentos à base de Mn e Co sobre aço inoxidável ferrítico (AISI 430), utilizando a técnica de dip-coating. Os filmes obtidos foram caracterizados quanto à morfologia por MEV e quanto à composição elementar por EDS. Foi possível obter do revestimento à base de Mn e Co continuo e aderente sobre o substrato metálico.

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Section: Introductionunclassified

Obtenção de revestimento à base de Mn e Co por dip-coating sobre aço inoxidável ferrítico

Bervian¹,

Korb²,

Ludwig³

et al. 2021

Lat. Americ. J. of Develop.

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“…According to previous studies, many methods for improving the thickness of the oxide layer of interconnects are currently being considered, including controlling the chemical composition of ferritic stainless steel [13], applying superficial mechanical treatments [14,15,16] and the deposition of coatings with high electrical conductivity at high temperatures [17], such as those composed of reactive-element materials [18], perovskites [19] or spinel-type oxides [20].…”

Section: Introductionmentioning

confidence: 99%

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

Bervian

Korb

Savaris

et al. 2014

MSF

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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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Characterization of implant materials in fetal bovine serum and sodium sulfate by electrochemical impedance spectroscopy. II. Coarsely sandblasted samples

Contu¹,

Elsener

Böhni

2003

J Biomedical Materials Res

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Electrochemical impedance spectroscopy is used to investigate the corrosion resistance of coarsely sandblasted implant alloys, commercially pure titanium, Ti6Al4V, Ti6Al7Nb, and CoCrMo in 0.1M sodium sulfate and fetal bovine serum. Coarsely sandblasted samples have a heterogeneous surface constituted by a large number of protrusions and recessions. Impedance spectra collected in sodium sulfate present two time constants (maxima in the phase-angle of the bode plot) associated with the total surface and with the tips, respectively. In bovine serum, the two maxima in the impedance spectra cannot be distinguished because of the formation of an adsorption layer of organic molecules, which causes a decrease in the values of both the total and tips' capacitances as well as an increase in the polarization resistance. Ti6Al4V and Ti6Al7Nb show the highest corrosion rate both in serum and in sodium sulfate. Based on the capacitance values obtained in sodium sulfate, the real surface area of the coarsely sandblasted electrodes has been estimated relative to mechanically polished surfaces. The values of the effective electrode area correlate with the mechanical properties of the samples: in fact, the softest electrode (commercially pure titanium) shows the largest effective electrode area, whereas the hardest material (CoCrMo alloy) shows the smallest surface area.

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Effect of Sandblasting on the Oxidation and Corrosion Behaviour of an Oxide-Dispersed Strengthened (ODS) FeCrAl Alloy.

Cited by 8 publications

References 20 publications

Obtenção de revestimento à base de Mn e Co por dip-coating sobre aço inoxidável ferrítico

Obtenção de revestimento à base de Mn e Co por dip-coating sobre aço inoxidável ferrítico

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

Characterization of implant materials in fetal bovine serum and sodium sulfate by electrochemical impedance spectroscopy. II. Coarsely sandblasted samples

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