Electrodeposition of copper – tin alloys from glycol electrolytes

Journal of the Belarusian State University. Chemistry Pub Date : 2019-08-30 DOI:10.33581/2520-257x-2019-2-69-78

T. N. Vorobyova, Maryia G. Haluza, Olga N. Vryblevskaya, A. V. Paniatouski, E. A. Veretennikova

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Abstract

Stable ethylene glycol (EG) and propylene glycol (PG) electrolytes containing СuCl2 · 2H2O, SnCl4 · 5H2O and Trilon B have been developed, which provide electrodeposition of Cu – Sn alloy with tin content varying from 34 to 52 at. % in case of EG and from 51 to 91 at. % in case of PG electrolytes. It is found that the coatings contain phases of Cu6Sn5 и Cu10Sn3 intermetallic compounds, and metallic tin is also present in case of its highest content in the alloy. It is revealed that tin content can be simply varied by the change of current density or concentrations of tin and copper compounds in glycols. The effect of electrolyte composition, deposition conditions, a nature of a substrate on the coatings deposition rate (in the limits of 0.9‒2.9 μm ∙ h‒1), total metal current efficiency (from 40 to 95 %), the ratio of metals in the alloy (from 34 to 91 at. %), its phase composition and microstructure is determined. The conditions for the deposition of Cu – Sn alloy close to the eutectic composition have been found.

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乙二醇电解液电沉积铜锡合金

研制了含有СuCl2·2H2O、SnCl4·5H2O和Trilon B的稳定的乙二醇(EG)和丙二醇(PG)电解质，可电沉积锡含量在34 ~ 52 at之间的Cu - Sn合金。在EG的情况下，从51到91。%的PG电解质。结果表明，镀层中含有Cu6Sn5和Cu10Sn3金属间化合物相，同时还存在金属锡，锡在合金中含量最高。结果表明，锡的含量可以通过电流密度的变化或乙二醇中锡和铜化合物浓度的变化而简单地改变。电解质组成、沉积条件、衬底性质对镀层沉积速率(在0.9 ~ 2.9 μm∙h-1范围内)、总金属电流效率(从40%到95%)、合金中金属比(从34到91 at)的影响。%)，测定其相组成和显微组织。发现了铜锡合金接近共晶成分的沉积条件。

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Journal of the Belarusian State University. Chemistry

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