Ternary Zn–Mn–Sn alloy electrodeposition from an ionic liquid based on choline chloride

S. Fashu; R. Khan; S. Zulfiqar

doi:10.1080/00202967.2017.1306371

Ternary Zn–Mn–Sn alloy electrodeposition from an ionic liquid based on choline chloride

S. Fashu^*, R. Khan, S. Zulfiqar

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Zinc–manganese–tin (Zn–Mn–Sn) ternary alloys have been successfully prepared, for the first time, by electrochemical deposition from a choline chloride-based ionic liquid. The influence of electrolyte composition and electrodeposition potential on the ternary Zn–Mn–Sn alloy surface morphology, composition and corrosion resistance were investigated and contrasted with the characteristics of binary Zn–Mn and Zn–Sn electrodeposits. It was found that the composition of the plating bath and deposition potential have a significant influence on the alloy content, morphology and corrosion properties of the Zn–Mn–Sn alloys. The content of Sn in the ternary alloy increased with a decrease in electrodeposition potential and an increase in concentration of Sn²⁺ in the electrolyte. The corrosion studies showed that the Zn–Mn–Sn alloys have a synergistic property combining the barrier behaviour afforded by Sn and the strong passive behaviour of Mn, while the sacrificial characteristics are still preserved.

Original language	English
Pages (from-to)	217-225
Number of pages	9
Journal	Transactions of the Institute of Metal Finishing
Volume	95
Issue number	4
DOIs	https://doi.org/10.1080/00202967.2017.1306371
State	Published - 4 Jul 2017
Externally published	Yes

Keywords

Coatings
Corrosion test
Electrochemical techniques
Thin films

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10.1080/00202967.2017.1306371

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title = "Ternary Zn–Mn–Sn alloy electrodeposition from an ionic liquid based on choline chloride",

abstract = "Zinc–manganese–tin (Zn–Mn–Sn) ternary alloys have been successfully prepared, for the first time, by electrochemical deposition from a choline chloride-based ionic liquid. The influence of electrolyte composition and electrodeposition potential on the ternary Zn–Mn–Sn alloy surface morphology, composition and corrosion resistance were investigated and contrasted with the characteristics of binary Zn–Mn and Zn–Sn electrodeposits. It was found that the composition of the plating bath and deposition potential have a significant influence on the alloy content, morphology and corrosion properties of the Zn–Mn–Sn alloys. The content of Sn in the ternary alloy increased with a decrease in electrodeposition potential and an increase in concentration of Sn2+ in the electrolyte. The corrosion studies showed that the Zn–Mn–Sn alloys have a synergistic property combining the barrier behaviour afforded by Sn and the strong passive behaviour of Mn, while the sacrificial characteristics are still preserved.",

keywords = "Coatings, Corrosion test, Electrochemical techniques, Thin films",

author = "S. Fashu and R. Khan and S. Zulfiqar",

note = "Publisher Copyright: {\textcopyright} 2017 Institute of Materials Finishing.",

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T1 - Ternary Zn–Mn–Sn alloy electrodeposition from an ionic liquid based on choline chloride

AU - Fashu, S.

AU - Khan, R.

AU - Zulfiqar, S.

PY - 2017/7/4

Y1 - 2017/7/4

N2 - Zinc–manganese–tin (Zn–Mn–Sn) ternary alloys have been successfully prepared, for the first time, by electrochemical deposition from a choline chloride-based ionic liquid. The influence of electrolyte composition and electrodeposition potential on the ternary Zn–Mn–Sn alloy surface morphology, composition and corrosion resistance were investigated and contrasted with the characteristics of binary Zn–Mn and Zn–Sn electrodeposits. It was found that the composition of the plating bath and deposition potential have a significant influence on the alloy content, morphology and corrosion properties of the Zn–Mn–Sn alloys. The content of Sn in the ternary alloy increased with a decrease in electrodeposition potential and an increase in concentration of Sn2+ in the electrolyte. The corrosion studies showed that the Zn–Mn–Sn alloys have a synergistic property combining the barrier behaviour afforded by Sn and the strong passive behaviour of Mn, while the sacrificial characteristics are still preserved.

AB - Zinc–manganese–tin (Zn–Mn–Sn) ternary alloys have been successfully prepared, for the first time, by electrochemical deposition from a choline chloride-based ionic liquid. The influence of electrolyte composition and electrodeposition potential on the ternary Zn–Mn–Sn alloy surface morphology, composition and corrosion resistance were investigated and contrasted with the characteristics of binary Zn–Mn and Zn–Sn electrodeposits. It was found that the composition of the plating bath and deposition potential have a significant influence on the alloy content, morphology and corrosion properties of the Zn–Mn–Sn alloys. The content of Sn in the ternary alloy increased with a decrease in electrodeposition potential and an increase in concentration of Sn2+ in the electrolyte. The corrosion studies showed that the Zn–Mn–Sn alloys have a synergistic property combining the barrier behaviour afforded by Sn and the strong passive behaviour of Mn, while the sacrificial characteristics are still preserved.

KW - Coatings

KW - Corrosion test

KW - Electrochemical techniques

KW - Thin films

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DO - 10.1080/00202967.2017.1306371

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JO - Transactions of the Institute of Metal Finishing

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ER -

Ternary Zn–Mn–Sn alloy electrodeposition from an ionic liquid based on choline chloride

Abstract

Keywords

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