Article of scientific and technological research
Corrosion resistance in saline environment of a carbon steel coated with aluminum by thermal spray and painting poly aspartic
Published 2017-06-30
Keywords
- aluminum,
- corrosion,
- paint,
- salt spray,
- thermal spray
How to Cite
Marulanda Arévalo, J. L., Pérez-Muñoz, D., & Remolina Millan, A. (2017). Corrosion resistance in saline environment of a carbon steel coated with aluminum by thermal spray and painting poly aspartic. Revista ION, 30(1). https://doi.org/10.18273/revion.v30n1-2017002
Abstract
The corrosion resistance was assessed in saline environment on a 1020 steel coated with aluminum by arc thermal spraying and then a polyaspartic paint was applied. It was observed that this system has a protection in these environments, reducing the corrosion rate, compared to a bilayer paint system, which consisted of zinc-rich paint layer and polyaspartic coating. Coating characterization was performed by SEM to analyze their behavior with respect to the substrate and paint to meet variations in properties such as adhesion, homogeneity and topography. It was observed that the samples coated with aluminum by thermal spraying showed good corrosion resistance in salt spray the specimens that were not coated, just were protected by the bilayer coating system, even the paint without thermal spraying performed well and that did not fail during the time stipulated in test for salt spray.Downloads
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References
[1] Ahnia F, Demri B. Evaluation of aluminum coatings in simulated marine environment. Surf. Coat. Technol. 2013;220:232–6.
[2] Regina MH, Pombo R, Schereiner SC, Wido H, Calixto A. Comparison of aluminum coatings deposited by flame spray and by electric arc spray. Surf. Coat. Technol. 2007;202(1):172-9.
[3] Li HY, Duan JY, Wei DD. Comparison on corrosion behaviour of arc sprayed and zinc-rich coatings. Surf. Coat. Technol. 2013;235:259-66.
[4] Muhamad HA, Nor HS, Abasa SK, Nik NR, Noriyati MS. Performance and Microstructure Analysis of 99.5% Aluminium Coating by Thermal Arc Spray Technique. Procedia Eng. 2013;68:558-65.
[5] Bolelli G, Candeli A, Koivuluoto H, Lusvarghi L, Manfredini T, Vuoristo P. Microstructure-based thermo- mechanical modelling of thermal spray coatings. Mater Des. 2015;73:20-34.
[6] Perez A, Billard C, Rébéré C, Berziou S, Touzain S, Creus J. Influence of metallurgical states on the corrosion behavior of Al-Zn PVD coating in saline solution. Corros Sci. 2013;74:240-9.
[7] Marulanda JL, Tristancho JL, Cañas A. Protección contra la corrosión en sales fundidas de un acero hot rolled, en el rango de temperaturas de 400°C y 600°C, recubierto por rociado térmico con acero inoxidable 312. Dyna. 2009;76(160):229-35
[8] Cinca N, Camello CR, Guilemany JM. An overview of intermetallics research and application: Status of thermal spray coatings. J Mater Res Technol. 2013;2(1):75-86.
[9] Matthew K, Hedges A, Newbery P, Grant P. Characterization of electric arc spray formed Ni superalloy IN718. Mater Sci Eng: A. 2002; 326(1):79-91.
[10] Jandin G, Liao H, Feng ZQ, Coddet C. Correlations between operating conditions, microstructure and mechanical properties of twin wire arc sprayed steel coatings. Mater Sci Eng: A. 2003;349(1-2):298-305.
[11] Barletta AM, Gisario A, Puopolo M, Vesco S. Scratch, wear and corrosion resistant organic inorganic hybrid materials for metals protection and barrier. Mater Des. 2015;69:130-40.
[12] Chakravarthy D, Barve DN, Patil DS, Mishra P, Prasad CS, Rout RK. Development and characterization of single wire arc plasma sprayed coating of nickel on carbon blocks and alumina tube substrates. Surf. Coat. Technol. 2007;202:325-30.
[13] Sá Brito VRS, Bastos IN, Costa HRM. Corrosion resistance and characterization of metallic coatings deposited by thermal spray on carbon steel. Mater Des. 2012;41:282-8.
[14] Newbery AP, Grant PS. Oxidation during electric arc spray forming of steel. J Mater Process Tecnhol. 2006;178(1-3):259-69.
[15] Schaefer K, Miszczyk A. Improvement of electrochemical action of zinc-rich paints by addition of nanoparticulate zinc. Corros Sci. 2013;66:380–91.
[16] Akbarinezhad E, Ebrahimi M, Sharif F, Ghanbarzadeh A. Evaluating protection performance of zinc rich epoxy paints modifiedwith polyaniline and polyaniline-clay nanocomposite. Prog Org Coat. 2014; 77:1299–308
[2] Regina MH, Pombo R, Schereiner SC, Wido H, Calixto A. Comparison of aluminum coatings deposited by flame spray and by electric arc spray. Surf. Coat. Technol. 2007;202(1):172-9.
[3] Li HY, Duan JY, Wei DD. Comparison on corrosion behaviour of arc sprayed and zinc-rich coatings. Surf. Coat. Technol. 2013;235:259-66.
[4] Muhamad HA, Nor HS, Abasa SK, Nik NR, Noriyati MS. Performance and Microstructure Analysis of 99.5% Aluminium Coating by Thermal Arc Spray Technique. Procedia Eng. 2013;68:558-65.
[5] Bolelli G, Candeli A, Koivuluoto H, Lusvarghi L, Manfredini T, Vuoristo P. Microstructure-based thermo- mechanical modelling of thermal spray coatings. Mater Des. 2015;73:20-34.
[6] Perez A, Billard C, Rébéré C, Berziou S, Touzain S, Creus J. Influence of metallurgical states on the corrosion behavior of Al-Zn PVD coating in saline solution. Corros Sci. 2013;74:240-9.
[7] Marulanda JL, Tristancho JL, Cañas A. Protección contra la corrosión en sales fundidas de un acero hot rolled, en el rango de temperaturas de 400°C y 600°C, recubierto por rociado térmico con acero inoxidable 312. Dyna. 2009;76(160):229-35
[8] Cinca N, Camello CR, Guilemany JM. An overview of intermetallics research and application: Status of thermal spray coatings. J Mater Res Technol. 2013;2(1):75-86.
[9] Matthew K, Hedges A, Newbery P, Grant P. Characterization of electric arc spray formed Ni superalloy IN718. Mater Sci Eng: A. 2002; 326(1):79-91.
[10] Jandin G, Liao H, Feng ZQ, Coddet C. Correlations between operating conditions, microstructure and mechanical properties of twin wire arc sprayed steel coatings. Mater Sci Eng: A. 2003;349(1-2):298-305.
[11] Barletta AM, Gisario A, Puopolo M, Vesco S. Scratch, wear and corrosion resistant organic inorganic hybrid materials for metals protection and barrier. Mater Des. 2015;69:130-40.
[12] Chakravarthy D, Barve DN, Patil DS, Mishra P, Prasad CS, Rout RK. Development and characterization of single wire arc plasma sprayed coating of nickel on carbon blocks and alumina tube substrates. Surf. Coat. Technol. 2007;202:325-30.
[13] Sá Brito VRS, Bastos IN, Costa HRM. Corrosion resistance and characterization of metallic coatings deposited by thermal spray on carbon steel. Mater Des. 2012;41:282-8.
[14] Newbery AP, Grant PS. Oxidation during electric arc spray forming of steel. J Mater Process Tecnhol. 2006;178(1-3):259-69.
[15] Schaefer K, Miszczyk A. Improvement of electrochemical action of zinc-rich paints by addition of nanoparticulate zinc. Corros Sci. 2013;66:380–91.
[16] Akbarinezhad E, Ebrahimi M, Sharif F, Ghanbarzadeh A. Evaluating protection performance of zinc rich epoxy paints modifiedwith polyaniline and polyaniline-clay nanocomposite. Prog Org Coat. 2014; 77:1299–308