EFFECT OF ORGANIC ADDITIVES ON ELECTRODEPOSITION OF TIN FROM ACID SULFATE SOLUTION

Metallurgy and Foundry Engineering Pub Date : 2018-10-22 DOI:10.7494/MAFE.2018.44.1.41
E. Rudnik, G. Chowaniec
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引用次数: 2

Abstract

Basic electrochemical experiments on the kinetics of tin deposition from an acid sulfate solution containing organic additives were performed. The measurements showed that tin deposits with activation polarization in a narrow potential range. Organic additives like gelatin and β-naphtol inhibit the charge transfer stage of the cathodic reaction due to the formation of adsorption layers. In turn, the gluconate ions increase the rate of tin deposition due to the bonding of hydrogen ions and inhibiting hydrogen coevolution. This results in serious changes in the morphology of tin deposits from isolated polyhedron crystals (no additive) via rectangular plates (β-naphtol) and thin plates (sodium gluconate) to rounded grains (gelatin).
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有机添加剂对硫酸酸性溶液电沉积锡的影响
对含有机添加剂的硫酸酸性溶液中锡沉积动力学进行了基本的电化学实验。测量结果表明,锡矿床在窄电位范围内具有活化极化。明胶和β-萘酚等有机添加剂由于吸附层的形成抑制了阴极反应的电荷转移阶段。反过来,葡萄糖酸盐离子由于氢离子的结合和抑制氢的共析而增加了锡的沉积速率。这导致锡沉积层的形貌发生了严重的变化,从孤立的多面体晶体(无添加剂)通过矩形板(β-萘酚)和薄板(葡萄糖酸钠)到圆形颗粒(明胶)。
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Metallurgy and Foundry Engineering
Metallurgy and Foundry Engineering
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