Interfacial Investigation of St13/Molten Zn–5% Al and Corrosion Behavior of Formed Layer via Hot-Dip Process

In the present study, the effect of temperature and duration of hot-dipping on structural properties, hardness, and corrosion resistance of Zn–5% Al coatings on ST13 low-carbon steel has been investigated. The samples were dipped in a molten metal bath at temperatures of 440, 480 and 520°C, during 2...

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Published inSurface engineering and applied electrochemistry Vol. 57; no. 1; pp. 124 - 135
Main Authors Mesbahzadeh, A., Abdolmaleki, H., Seyedraoufi, Z. S., Ahmadi, A., Mirzavand, K., Shajari, Y., Bakhtiari, H.
Format Journal Article
LanguageEnglish
Published Moscow Pleiades Publishing 2021
Springer Nature B.V
Subjects
Aluminum coatings
Corrosion rate
Corrosion resistance
Corrosion tests
Diffusion coating
Diffusion layers
Engineering
Eutectic temperature
Hot dip aluminizing
Immersion coating
Investigations
Liquid metals
Low carbon steels
Machines
Manufacturing
Microhardness
Microstructure
Processes
Protective coatings
Substrate inhibition
Temperature effects
Zinc
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Summary:In the present study, the effect of temperature and duration of hot-dipping on structural properties, hardness, and corrosion resistance of Zn–5% Al coatings on ST13 low-carbon steel has been investigated. The samples were dipped in a molten metal bath at temperatures of 440, 480 and 520°C, during 20, 50 and 70 seconds. To investigate the microstructure and properties of samples, scanning electron microscopy, energy dispersive X-ray spectrometry, microhardness measurements, and potentiodynamic polarization corrosion tests were used. The results showed that the coating structure is an eutectic layer at 440°C, and at the interface of the substrate and the coating a thin inhibitory layer is formed that prevents the diffusion of the substrate atoms into the coating and from the molten bath into the substrate. With an increase of temperature to 480 and 520°C, with the diffusion of iron atoms of the substrate and of the molten bath, a triple metallic layer of Al–Fe–Zn forms, and the thickness of the coating increases. As the dipping time increases, the number of intermetallic particles in the coating also increases. At higher temperatures, the hardness went up from 86 to 121.73 Hv and the corrosion rate—from 7.381 to 37.53 Mpy. Keywords hot dip, Zn–5% Al coating, microstructure, intermetallic, corrosion
ISSN:1068-3755
1934-8002
DOI:10.3103/S1068375521010087