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Preparation and performance of plasma/polymer composite coatings on magnesium alloy

A triplex plasma (NiCoCrAlHfYSi/Al2O3·13%TiO2)/polycaprolactone composite coating was successfully deposited on a Mg-1.2Ca alloy by a combination of atmospheric plasma spraying and dip-coating techniques. The NiCoCrAlHfYSi (MCrAlHYS) coating, as the first layer, contained a large number of voids, gl...

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Main Authors: Bakhsheshi-Rad, H. R., Hamzah, E., Bagheriyan, S., Daroonparvar, M., Kasiri-Asgarani, M., Shah, A. M., Medraj, M.
Format: Article
Published: Springer New York LLC 2016
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TJ Mechanical engineering and machinery
Online Access:http://eprints.utm.my/id/eprint/72177/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-84979967848&doi=10.1007%2fs11665-016-2247-5&partnerID=40&md5=16f1ea8255615eb9cf227305423f82d0
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spelling my.utm.721772017-11-23T06:19:25Z http://eprints.utm.my/id/eprint/72177/ Preparation and performance of plasma/polymer composite coatings on magnesium alloy Bakhsheshi-Rad, H. R. Hamzah, E. Bagheriyan, S. Daroonparvar, M. Kasiri-Asgarani, M. Shah, A. M. Medraj, M. TJ Mechanical engineering and machinery A triplex plasma (NiCoCrAlHfYSi/Al2O3·13%TiO2)/polycaprolactone composite coating was successfully deposited on a Mg-1.2Ca alloy by a combination of atmospheric plasma spraying and dip-coating techniques. The NiCoCrAlHfYSi (MCrAlHYS) coating, as the first layer, contained a large number of voids, globular porosities, and micro-cracks with a thickness of 40-50 μm, while the Al2O3·13%TiO2 coating, as the second layer, presented a unique bimodal microstructure with a thickness of 70-80 μm. The top layer was a hydrophobic polymer, which effectively sealed the porosities of plasma layers. The results of micro-hardness and bonding strength tests showed that the plasma coating presented excellent hardness (870 HV) and good bonding strength (14.8 MPa). However, the plasma/polymer coatings interface exhibited low bonding strength (8.6 MPa). The polymer coating formed thick layer (100-110 μm) that homogeneously covered the surface of the plasma layers. Contact angle measurement showed that polymer coating over plasma layers significantly decreased surface wettability. The corrosion current density (icorr) of an uncoated sample (262.7 µA/cm2) decreased to 76.9 µA/cm2 after plasma coatings were applied. However, it was found that the icorr decreased significantly to 0.002 µA/cm2 after polymer sealing of the porous plasma layers. Springer New York LLC 2016 Article PeerReviewed Bakhsheshi-Rad, H. R. and Hamzah, E. and Bagheriyan, S. and Daroonparvar, M. and Kasiri-Asgarani, M. and Shah, A. M. and Medraj, M. (2016) Preparation and performance of plasma/polymer composite coatings on magnesium alloy. Journal of Materials Engineering and Performance, 25 (9). pp. 3948-3959. ISSN 1059-9495 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84979967848&doi=10.1007%2fs11665-016-2247-5&partnerID=40&md5=16f1ea8255615eb9cf227305423f82d0
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic TJ Mechanical engineering and machinery
spellingShingle TJ Mechanical engineering and machinery
Bakhsheshi-Rad, H. R.
Hamzah, E.
Bagheriyan, S.
Daroonparvar, M.
Kasiri-Asgarani, M.
Shah, A. M.
Medraj, M.
Preparation and performance of plasma/polymer composite coatings on magnesium alloy
description A triplex plasma (NiCoCrAlHfYSi/Al2O3·13%TiO2)/polycaprolactone composite coating was successfully deposited on a Mg-1.2Ca alloy by a combination of atmospheric plasma spraying and dip-coating techniques. The NiCoCrAlHfYSi (MCrAlHYS) coating, as the first layer, contained a large number of voids, globular porosities, and micro-cracks with a thickness of 40-50 μm, while the Al2O3·13%TiO2 coating, as the second layer, presented a unique bimodal microstructure with a thickness of 70-80 μm. The top layer was a hydrophobic polymer, which effectively sealed the porosities of plasma layers. The results of micro-hardness and bonding strength tests showed that the plasma coating presented excellent hardness (870 HV) and good bonding strength (14.8 MPa). However, the plasma/polymer coatings interface exhibited low bonding strength (8.6 MPa). The polymer coating formed thick layer (100-110 μm) that homogeneously covered the surface of the plasma layers. Contact angle measurement showed that polymer coating over plasma layers significantly decreased surface wettability. The corrosion current density (icorr) of an uncoated sample (262.7 µA/cm2) decreased to 76.9 µA/cm2 after plasma coatings were applied. However, it was found that the icorr decreased significantly to 0.002 µA/cm2 after polymer sealing of the porous plasma layers.
format Article
author Bakhsheshi-Rad, H. R.
Hamzah, E.
Bagheriyan, S.
Daroonparvar, M.
Kasiri-Asgarani, M.
Shah, A. M.
Medraj, M.
author_facet Bakhsheshi-Rad, H. R.
Hamzah, E.
Bagheriyan, S.
Daroonparvar, M.
Kasiri-Asgarani, M.
Shah, A. M.
Medraj, M.
author_sort Bakhsheshi-Rad, H. R.
title Preparation and performance of plasma/polymer composite coatings on magnesium alloy
title_short Preparation and performance of plasma/polymer composite coatings on magnesium alloy
title_full Preparation and performance of plasma/polymer composite coatings on magnesium alloy
title_fullStr Preparation and performance of plasma/polymer composite coatings on magnesium alloy
title_full_unstemmed Preparation and performance of plasma/polymer composite coatings on magnesium alloy
title_sort preparation and performance of plasma/polymer composite coatings on magnesium alloy
publisher Springer New York LLC
publishDate 2016
url http://eprints.utm.my/id/eprint/72177/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-84979967848&doi=10.1007%2fs11665-016-2247-5&partnerID=40&md5=16f1ea8255615eb9cf227305423f82d0
_version_ 1643656374131884032
score 13.159267

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