EDS + EBSD Phase Analysis of the Zinc Coating Formed on Steel in a Melt with Nickel Microadditives

We study the structure of a zinc coating on steels with a silicon concentration of 0.02, 0.06, 0.20, and 0.67 wt %. The coating is applied by dipping into a pure zinc melt and in a zinc melt with 0.05 wt % of nickel for 5 min at a temperature of 450°С. The features of the morphology of the ζ phase o...

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Bibliographic Details
Published in:Surface investigation, x-ray, synchrotron and neutron techniques x-ray, synchrotron and neutron techniques, 2022, Vol.16 (6), p.1069-1073
Main Authors: Bondareva, O. S., Dobychina, O. S., Melnikov, A. A., Konovalov, S. V.
Format: Article
Language:English
Subjects:
Alloying
Chemistry and Materials Science
Coating effects
Crystal lattices
Crystallites
Dispersion
Intermetallic compounds
Materials Science
Nickel
Phases
Silicon
Silicon steels
Silicon substrates
Steel
Surfaces and Interfaces
Thickness
Thin Films
Zinc coatings
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Summary:We study the structure of a zinc coating on steels with a silicon concentration of 0.02, 0.06, 0.20, and 0.67 wt %. The coating is applied by dipping into a pure zinc melt and in a zinc melt with 0.05 wt % of nickel for 5 min at a temperature of 450°С. The features of the morphology of the ζ phase of the coating are found depending on the silicon concentration in the steel. With a silicon concentration of 0.06 wt %, the ζ phase is presented by branched dendrites growing to the surface. This leads to the so-called “Sandelin effect”, when the coating thickness is not the same over the entire surface of the substrate. On high-silicon steels (with a silicon concentration of 0.67 wt %), the ζ phase consists of large crystallites and makes up 90% of the entire coating thickness. Growth of the coating phases is effectively suppressed by alloying the zinc melt with nickel in an amount of 0.05 wt %. We find a change in the structure of the individual phases of the coating upon alloying the zinc melt. Energy-dispersive microanalysis revealed coating areas with a jump in the nickel concentration up to 0.33 wt %. Interpreting the Kikuchi patterns shows that the initial structural type of the ζ phase of the coating is kept for all steels and corresponds to the FeZn 13 intermetallic compound with a monoclinic crystal lattice, in which 0.30–0.33 wt % of iron is replaced by nickel. A finely dispersed mixture of phases is found in the coating on high-silicon steel, located between the crystallites of the δ phase and ζ phase with an increased concentration of silicon (0.61 wt %) and nickel (0.2 wt %). The coincident Kikuchi patterns and the small values of the average angular deviation confirm the detection of Fe 3 Zn 10 , FeZn 13 , and Ni 2 Zn 3 Si intermetallic compounds.
ISSN:1027-4510
1819-7094
DOI:10.1134/S1027451022060064