Electrolyte contamination effects of the high temperature deposition of barrier anodic films on aluminium in aqueous solutions

Electrodeposition and Surface Treatment Pub Date : 1974-01-01 DOI:10.1016/0300-9416(74)90011-X

S. Ikonopisov, L. Andreeva

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引用次数: 4

Abstract

The formation of barrier alumina films in aqueous electrolytes is known to proceed anomalously at temperatures above 40°C and to result in unstable films. In contrast with this the advantage of the high temperature anodization is proved by industrial experience. In order to elucidate the reasons for these discrepancies the galvanostatic anodization of aluminium in a boric acid solution at 90°C was studied. Some impurities of very low concentrations in the electrolyte were found to become active at high temperature and to cause the appearance and enlargement with the film growth of corrosion spots with a high electronic conduction. The shape, size and number of these spots turned out to be associated with the nature and concentration of the active impurities. These impurities are incorporated in the film during anodization and the electrolyte is thus ‘adapted’ by elimination of the impurities carried away by the oxide. The anodization in such ‘adapted’ electrolytes was found to proceed normally and to give high-resistance anodic films. Some practical application aspects of these findings are also discussed.

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在水溶液中沉积阻挡阳极膜对铝的电解质污染效应

已知在40°C以上的温度下，水电解质中屏障氧化铝膜的形成会异常进行，并导致膜不稳定。工业实践证明了高温阳极氧化的优越性。为了阐明这些差异的原因，研究了90℃硼酸溶液中铝的恒流阳极氧化。发现电解质中一些浓度极低的杂质在高温下变得有活性，并导致具有高电子导电性的腐蚀点随着膜的生长而出现和扩大。这些斑点的形状、大小和数量与活性杂质的性质和浓度有关。这些杂质在阳极氧化过程中被纳入薄膜中，因此电解质通过消除氧化物带走的杂质而“适应”。在这种“适应”电解质中的阳极氧化被发现正常进行并产生高电阻的阳极膜。本文还讨论了这些发现的一些实际应用方面。

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Electrodeposition and Surface Treatment

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