Multilayer corrosion-resistant material based on iron–carbon alloys
In this study, the architecture of a multilayer metallic material of iron-carbon alloys with an internal protector was developed based on theoretical studies. The operability of the proposed architecture was experimentally verified using gravimetry and electrochemical analysis. The internal position...
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doaj-107506c9fc374116b8635bcd95a277412020-11-25T03:17:05ZengElsevierHeliyon2405-84402020-05-0165e04039Multilayer corrosion-resistant material based on iron–carbon alloysVladimir A. Grachev0Andrey E. Rozen1Yury P. Perelygin2Sergey Yu. Kireev3Irina S. Los4A.N. Frumkin Institute of Physical Chemistry and Electrochemistry, Russian Academy of Sciences, 31 bldg 4, Leninsky Prospect, Moscow, 199071, Russia; Corresponding author.Penza State University, 40, Krasnaya St., Penza, 440026, RussiaPenza State University, 40, Krasnaya St., Penza, 440026, RussiaPenza State University, 40, Krasnaya St., Penza, 440026, RussiaPenza State University, 40, Krasnaya St., Penza, 440026, RussiaIn this study, the architecture of a multilayer metallic material of iron-carbon alloys with an internal protector was developed based on theoretical studies. The operability of the proposed architecture was experimentally verified using gravimetry and electrochemical analysis. The internal position of the protector enabled the modification of the mechanism of corrosion. The stages of corrosion of the multilayer material were revealed; the material was observed as useable until the third layer was perforated. To demonstrate the obtained results, the authors conducted a set of experiments using X-ray microscopy and scanning electron microscopy with an electron probe analysis of the chemical composition. The cost of the developed material is within the same range as widely used corrosion-resistant stainless austenite steels; and in terms of corrosion resistance, this material is comparable to palladium, molybdenum, nickel, and Hastelloy.http://www.sciencedirect.com/science/article/pii/S2405844020308835Materials scienceCorrosionPittingMultilayer materialsElectrochemical potentialMass corrosion index |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Vladimir A. Grachev Andrey E. Rozen Yury P. Perelygin Sergey Yu. Kireev Irina S. Los |
spellingShingle |
Vladimir A. Grachev Andrey E. Rozen Yury P. Perelygin Sergey Yu. Kireev Irina S. Los Multilayer corrosion-resistant material based on iron–carbon alloys Heliyon Materials science Corrosion Pitting Multilayer materials Electrochemical potential Mass corrosion index |
author_facet |
Vladimir A. Grachev Andrey E. Rozen Yury P. Perelygin Sergey Yu. Kireev Irina S. Los |
author_sort |
Vladimir A. Grachev |
title |
Multilayer corrosion-resistant material based on iron–carbon alloys |
title_short |
Multilayer corrosion-resistant material based on iron–carbon alloys |
title_full |
Multilayer corrosion-resistant material based on iron–carbon alloys |
title_fullStr |
Multilayer corrosion-resistant material based on iron–carbon alloys |
title_full_unstemmed |
Multilayer corrosion-resistant material based on iron–carbon alloys |
title_sort |
multilayer corrosion-resistant material based on iron–carbon alloys |
publisher |
Elsevier |
series |
Heliyon |
issn |
2405-8440 |
publishDate |
2020-05-01 |
description |
In this study, the architecture of a multilayer metallic material of iron-carbon alloys with an internal protector was developed based on theoretical studies. The operability of the proposed architecture was experimentally verified using gravimetry and electrochemical analysis. The internal position of the protector enabled the modification of the mechanism of corrosion. The stages of corrosion of the multilayer material were revealed; the material was observed as useable until the third layer was perforated. To demonstrate the obtained results, the authors conducted a set of experiments using X-ray microscopy and scanning electron microscopy with an electron probe analysis of the chemical composition. The cost of the developed material is within the same range as widely used corrosion-resistant stainless austenite steels; and in terms of corrosion resistance, this material is comparable to palladium, molybdenum, nickel, and Hastelloy. |
topic |
Materials science Corrosion Pitting Multilayer materials Electrochemical potential Mass corrosion index |
url |
http://www.sciencedirect.com/science/article/pii/S2405844020308835 |
work_keys_str_mv |
AT vladimiragrachev multilayercorrosionresistantmaterialbasedonironcarbonalloys AT andreyerozen multilayercorrosionresistantmaterialbasedonironcarbonalloys AT yurypperelygin multilayercorrosionresistantmaterialbasedonironcarbonalloys AT sergeyyukireev multilayercorrosionresistantmaterialbasedonironcarbonalloys AT irinaslos multilayercorrosionresistantmaterialbasedonironcarbonalloys |
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