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Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate

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Zeitschriftentitel: Solid State Phenomena
Personen und Körperschaften: Nagrabia, Agnieszka, Sowa, Maciej, Simka, Wojciech, Maciej, Artur
In: Solid State Phenomena, 227, 2015, S. 147-150
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
Trans Tech Publications, Ltd.
Schlagwörter:
Condensed Matter Physics
General Materials Science
Atomic and Molecular Physics, and Optics
author_facet Nagrabia, Agnieszka
Sowa, Maciej
Simka, Wojciech
Maciej, Artur
Nagrabia, Agnieszka
Sowa, Maciej
Simka, Wojciech
Maciej, Artur
author Nagrabia, Agnieszka
Sowa, Maciej
Simka, Wojciech
Maciej, Artur
spellingShingle Nagrabia, Agnieszka
Sowa, Maciej
Simka, Wojciech
Maciej, Artur
Solid State Phenomena
Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate
Condensed Matter Physics
General Materials Science
Atomic and Molecular Physics, and Optics
author_sort nagrabia, agnieszka
spelling Nagrabia, Agnieszka Sowa, Maciej Simka, Wojciech Maciej, Artur 1662-9779 Trans Tech Publications, Ltd. Condensed Matter Physics General Materials Science Atomic and Molecular Physics, and Optics http://dx.doi.org/10.4028/www.scientific.net/ssp.227.147 <jats:p>Zn-Ni and Zn-Co monolayer and Zn-Ni/Zn-Co multilayer (from 2 to 128 layers) alloy coatings were formed on steel substrate by electrodeposition from acidic Zn-Ni bath and neutral Zn-Co bath. Samples were tested in salt chamber for corrosion resistance in neutral salt spray. Open circuit potential measurement and gravimetric study of corrosion were carried for samples immersed in the 5% NaCl solution.It was found that coatings of Zn-Ni surface layer occurred higher corrosion resistance then the coatings of Zn-Co surface layer. Sixteen-layer coating with Zn-Ni surface layer proved to be most effective in protecting the steel substrate. Zn-Ni monolayer showed the lowest corrosion potential, which affects the corrosion properties. Sample weight changes during exposure to a corrosive environment are related to digestion of the coating and the formation of corrosion products.</jats:p> Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate Solid State Phenomena
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series Solid State Phenomena
source_id 49
title Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate
title_unstemmed Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate
title_full Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate
title_fullStr Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate
title_full_unstemmed Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate
title_short Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate
title_sort galvanic formation of zn-ni/zn-co type multilayer alloy coatings on steel substrate
topic Condensed Matter Physics
General Materials Science
Atomic and Molecular Physics, and Optics
url http://dx.doi.org/10.4028/www.scientific.net/ssp.227.147
publishDate 2015
physical 147-150
description <jats:p>Zn-Ni and Zn-Co monolayer and Zn-Ni/Zn-Co multilayer (from 2 to 128 layers) alloy coatings were formed on steel substrate by electrodeposition from acidic Zn-Ni bath and neutral Zn-Co bath. Samples were tested in salt chamber for corrosion resistance in neutral salt spray. Open circuit potential measurement and gravimetric study of corrosion were carried for samples immersed in the 5% NaCl solution.It was found that coatings of Zn-Ni surface layer occurred higher corrosion resistance then the coatings of Zn-Co surface layer. Sixteen-layer coating with Zn-Ni surface layer proved to be most effective in protecting the steel substrate. Zn-Ni monolayer showed the lowest corrosion potential, which affects the corrosion properties. Sample weight changes during exposure to a corrosive environment are related to digestion of the coating and the formation of corrosion products.</jats:p>
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author Nagrabia, Agnieszka, Sowa, Maciej, Simka, Wojciech, Maciej, Artur
author_facet Nagrabia, Agnieszka, Sowa, Maciej, Simka, Wojciech, Maciej, Artur, Nagrabia, Agnieszka, Sowa, Maciej, Simka, Wojciech, Maciej, Artur
author_sort nagrabia, agnieszka
container_start_page 147
container_title Solid State Phenomena
container_volume 227
description <jats:p>Zn-Ni and Zn-Co monolayer and Zn-Ni/Zn-Co multilayer (from 2 to 128 layers) alloy coatings were formed on steel substrate by electrodeposition from acidic Zn-Ni bath and neutral Zn-Co bath. Samples were tested in salt chamber for corrosion resistance in neutral salt spray. Open circuit potential measurement and gravimetric study of corrosion were carried for samples immersed in the 5% NaCl solution.It was found that coatings of Zn-Ni surface layer occurred higher corrosion resistance then the coatings of Zn-Co surface layer. Sixteen-layer coating with Zn-Ni surface layer proved to be most effective in protecting the steel substrate. Zn-Ni monolayer showed the lowest corrosion potential, which affects the corrosion properties. Sample weight changes during exposure to a corrosive environment are related to digestion of the coating and the formation of corrosion products.</jats:p>
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imprint_str_mv Trans Tech Publications, Ltd., 2015
institution DE-Ch1, DE-L229, DE-D275, DE-Bn3, DE-Brt1, DE-D161, DE-Zi4, DE-Gla1, DE-15, DE-Pl11, DE-Rs1, DE-14, DE-105
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mega_collection Trans Tech Publications, Ltd. (CrossRef)
physical 147-150
publishDate 2015
publishDateSort 2015
publisher Trans Tech Publications, Ltd.
record_format ai
recordtype ai
series Solid State Phenomena
source_id 49
spelling Nagrabia, Agnieszka Sowa, Maciej Simka, Wojciech Maciej, Artur 1662-9779 Trans Tech Publications, Ltd. Condensed Matter Physics General Materials Science Atomic and Molecular Physics, and Optics http://dx.doi.org/10.4028/www.scientific.net/ssp.227.147 <jats:p>Zn-Ni and Zn-Co monolayer and Zn-Ni/Zn-Co multilayer (from 2 to 128 layers) alloy coatings were formed on steel substrate by electrodeposition from acidic Zn-Ni bath and neutral Zn-Co bath. Samples were tested in salt chamber for corrosion resistance in neutral salt spray. Open circuit potential measurement and gravimetric study of corrosion were carried for samples immersed in the 5% NaCl solution.It was found that coatings of Zn-Ni surface layer occurred higher corrosion resistance then the coatings of Zn-Co surface layer. Sixteen-layer coating with Zn-Ni surface layer proved to be most effective in protecting the steel substrate. Zn-Ni monolayer showed the lowest corrosion potential, which affects the corrosion properties. Sample weight changes during exposure to a corrosive environment are related to digestion of the coating and the formation of corrosion products.</jats:p> Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate Solid State Phenomena
spellingShingle Nagrabia, Agnieszka, Sowa, Maciej, Simka, Wojciech, Maciej, Artur, Solid State Phenomena, Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate, Condensed Matter Physics, General Materials Science, Atomic and Molecular Physics, and Optics
title Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate
title_full Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate
title_fullStr Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate
title_full_unstemmed Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate
title_short Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate
title_sort galvanic formation of zn-ni/zn-co type multilayer alloy coatings on steel substrate
title_unstemmed Galvanic Formation of Zn-Ni/Zn-Co Type Multilayer Alloy Coatings on Steel Substrate
topic Condensed Matter Physics, General Materials Science, Atomic and Molecular Physics, and Optics
url http://dx.doi.org/10.4028/www.scientific.net/ssp.227.147