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Auger electron spectroscopic analysis of corrosion products formed on A3003 aluminum alloy in model fresh water with different Zn$$^{2+}$$ concentration

異なる亜鉛イオン濃度の模擬淡水中でA3003アルミニウム合金に形成する腐食生成物のオージェ電子分光法による分析

大谷 恭平; Islam, M. S.*; 坂入 正敏*; 兼子 彬*

Otani, Kyohei; Islam, M. S.*; Sakairi, Masatoshi*; Kaneko, Akira*

異なる亜鉛イオン濃度の模擬淡水中でA3003アルミニウム合金に形成した腐食生成物の形態および組成をオージェ電子分光分析装置(AES)により明らかにした。試料断面の観察より、浸漬した模擬淡水の亜鉛イオン濃度が増加するほどA3003に形成した腐食生成物の厚さは減少することがわかった。試料断面の分析より、溶液中の亜鉛イオン濃度が0.1mMを超えると腐食生成物は多層構造になり、内側の亜鉛の豊富な層は高耐食性を有することが示唆された。

The corrosion morphology and composition of corrosion products of A3003 formed in model fresh water with different Zn$$^{2+}$$ concentrations were investigated by immersion tests combined with surface observations and analysis using an auger electron spectroscope (AES). The cross-sectional AES observations showed that the thickness of the corrosion product layer formed on A3003 decreases with increases in the Zn$$^{2+}$$ concentration of the model fresh water. A cross-sectional AES point analysis suggested that the corrosion products formed on the A3003 in the Zn$$^{2+}$$ containing model fresh water (Zn$$^{2+}$$ $$>$$ 0.1 mM) have a multi-layer structure, and that the inner of Zn-rich layer would have high corrosion protective properties.

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