Effects of magnesium concentration and layer thickness on the adhesion of physical vapor deposited znmg-zn bi-layer coatings

Soheil Sabooni, Emad Galinmoghaddam, Ruud Johannes Westerwaal, Edzo Zoestbergen, Yutao Pei

OnderzoeksoutputAcademicpeer review

Samenvatting

For many years, zinc coatings have been regarded as one of the most effective anti-corrosion protective coatings for steel. Recently, it was shown that the addition of even small amounts of magnesium (Mg) to a zinc (Zn) coating can noticeably increase its corrosion protection performance; however, it has also been observed that there is poor adhesion of zinc-magnesium (ZnMg) coatings to advanced high-strength steels. The addition of a more ductile Zn interlayer between the steel substrate and the ZnMg coating is a solution to improve the adhesion problem. In the present study, a series of ZnMg-Zn bi-layered coatings with different Mg concentrations (up to 14.1 wt.% Mg), and also different thicknesses of the Zn and ZnMg layers, were prepared by a thermal evaporation process (physical vapor deposition (PVD)) in order to investigate the adhesion performance and interfacial adhesion strength. The adhesion performance of these coatings was qualified by the BMW crash adhesion test (BMW AA-M223), while the interfacial adhesion strength at the ZnMg/Zn interface was quantified by the scratch test. It was found that the interfacial adhesion strength decreases gradually with an increase in the Mg content of the top layer. The novel finding is that the interfacial adhesion strength at the ZnMg/Zn interface is independent of the thickness of the Zn interlayer; however, the adhesion performance of a ZnMg-Zn bi-layered coating during a bending test is a complex function of different parameters, such as the thickness of the Zn and ZnMg layers, the interfacial adhesion strength and the interfacial defects density.

Originele taal-2English
TitelMaterials and Contact Characterisation IX
RedacteurenS. Hernández, J. De Hosson, D.O. Northwood, R. Vilar
UitgeverijWIT Press
Pagina's63-71
Aantal pagina's9
ISBN van elektronische versie978-1-78466-332-2
ISBN van geprinte versie9781784663315
DOI's
StatusPublished - 2019
Evenement9th International Conference on Computational Methods and Experiments in Material and Contact Characterisation, 2019 - Lisbon, Portugal
Duur: 22-mei-201924-mei-2019

Publicatie series

NaamWIT Transactions on Engineering Sciences
Volume124
ISSN van geprinte versie1743-3533

Conference

Conference9th International Conference on Computational Methods and Experiments in Material and Contact Characterisation, 2019
Land/RegioPortugal
StadLisbon
Periode22/05/201924/05/2019

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