锡铋合金阴极沉积的动力学规律及超分散金刚石的影响

IF 0.4 Q4 METALLURGY & METALLURGICAL ENGINEERING
A. V. Isaev, V. V. Isaev, V. I. Naumov, T. I. Devyatkina
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引用次数: 0

摘要

本研究探讨了硫酸电解液中锡铋合金电化学沉积的具体特征以及超分散金刚石(UDDs)对沉积动力学的影响。沉积动力学伴随着扩散阻碍,在较低程度上,扩散阻碍是由放电的锡和铋离子传递到阴极表面造成的,在较高程度上,扩散阻碍是由这些离子通过阴极表面致密的藏胶吸附膜造成的。电子依次加入锡(II)离子,决定速率的步骤是加入第一个电子。在电解液中引入 UDD 可加速锡铋合金的沉积并提高电解液的散射力,这与高度发达的 UDD 表面上锡离子的化学吸附有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Kinetic Laws of the Cathodic Deposition of a Tin–Bismuth Alloy and the Influence of Ultradispersed Diamonds

Kinetic Laws of the Cathodic Deposition of a Tin–Bismuth Alloy and the Influence of Ultradispersed Diamonds

The specific features of galvanic deposition of a tin–bismuth alloy from a sulfuric acid electrolyte and the influence of ultradispersed diamonds (UDDs) on the deposition kinetics are considered. The deposition kinetics is accompanied by diffusion hindrances that are caused, to a lower extent, by the delivery of discharged tin and bismuth ions to the cathode surface and, to a higher extent, by the diffusion of these ions through a dense adsorption film of hide glue on the cathode surface. Electrons sequentially add to tin(II) ions, and the rate-determining step is the addition of the first electron. The introduction of UDDs into the electrolyte accelerates the deposition of a tin–bismuth alloy and increases the scattering power of the electrolyte, which is related to the chemisorption of tin ions on the highly developed UDD surface.

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来源期刊
Russian Metallurgy (Metally)
Russian Metallurgy (Metally) METALLURGY & METALLURGICAL ENGINEERING-
CiteScore
0.70
自引率
25.00%
发文量
140
期刊介绍: Russian Metallurgy (Metally)  publishes results of original experimental and theoretical research in the form of reviews and regular articles devoted to topical problems of metallurgy, physical metallurgy, and treatment of ferrous, nonferrous, rare, and other metals and alloys, intermetallic compounds, and metallic composite materials. The journal focuses on physicochemical properties of metallurgical materials (ores, slags, matters, and melts of metals and alloys); physicochemical processes (thermodynamics and kinetics of pyrometallurgical, hydrometallurgical, electrochemical, and other processes); theoretical metallurgy; metal forming; thermoplastic and thermochemical treatment; computation and experimental determination of phase diagrams and thermokinetic diagrams; mechanisms and kinetics of phase transitions in metallic materials; relations between the chemical composition, phase and structural states of materials and their physicochemical and service properties; interaction between metallic materials and external media; and effects of radiation on these materials.
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