Affiliation:
1. ANKARA YILDIRIM BEYAZIT UNIVERSITY
Abstract
Sn-Zn thin films are commonly used in many areas of the industry, and the facile production of these layers is vital. This study aims to produce Sn-Zn layers via potentially controlled electrochemically deposited coatings. The potentially controlled mode was used to eliminate the extensive hydrogen evolution reaction during the electrochemical processes. The electrochemical reduction and oxidation reactions were first investigated with cyclic voltammetry to determine the applied potential sets. Later, cathodic pulse potential electrodeposition of the layers was performed. The characterization of the coated Sn-Zn thin films was performed with an X-ray diffraction device (XRD), scanning electron microscope (SEM), energy dispersive spectroscopy (EDS), four-point probe, potentiodynamic polarization measurements, and electrochemical impedance spectrometry. As the cathodic pulse potential value increased, the ratio of Zn in the Sn-Zn alloy increased, and the microstructure of the layers was also affected. Electrochemical studies showed that the corrosion resistance of the Sn-Zn thin films increased with the increasing Zn amount in the coating.
Funder
Destekleyen herhangi bir kurum bulunmamaktadır.
Publisher
Gumushane University Journal of Science and Technology Institute
Reference29 articles.
1. Alesary, H. F., Ismail, H. K., Shiltagh, N. M., Alattar, R. A., Ahmed, L. M., Watkins, M. J., & Ryder, K. S. (2020). Effects of additives on the electrodeposition of Zn–Sn alloys from choline chloride/ethylene glycol-based deep eutectic solvent. Journal of Electroanalytical Chemistry, 874, 114517. https://doi.org/10.1016/j.jelechem.2020.114517
2. Baines, T., Brown, S., Benedettini, O., & Ball, P. (2012). Examining green production and its role within the competitive strategy of manufacturers. Journal of Industrial Engineering and Management, 5(1), 53–87. https://doi.org/10.3926/jiem.405
3. Benidir, S., Madani, A., Baka, O., Kherfi, A., Delhalle, J., & Mekhalif, Z. (2022). Influence of applied potential on tin content in electrodeposition of Zn–Sn alloy coatings and its effect on corrosion protection. Inorganic and Nano-Metal Chemistry, 0(0), 1–11. https://doi.org/10.1080/24701556.2021.2025105
4. Choi, Y. S., Ganesan, P., Kumaraguru, S. P., & Popov, B. N. (2006). Development of sacrificial Zn-Sn coatings by pulse electrodeposition process. National Association for Surface Finishing Annual Technical Conference 2006, SUR/FIN 2006, 1(803), 335–350.
5. Dybeł, A., & Pstruś, J. (2023). New Solder Based on the Sn-Zn Eutectic with Addition of Ag, Al, and Li. Journal of Materials Engineering and Performance, 32(July), 5710–5722. https://doi.org/10.1007/s11665-023-08103-0