MA Zhaozeng, JIN Lianji, and YIN Xiulan, Formation of Black Patina on Bronze Mirrors Caused by Multiphenol, J. Univ. Sci. Technol. Beijing, 4(1997), No. 2, pp. 43-46.
Cite this article as:
MA Zhaozeng, JIN Lianji, and YIN Xiulan, Formation of Black Patina on Bronze Mirrors Caused by Multiphenol, J. Univ. Sci. Technol. Beijing, 4(1997), No. 2, pp. 43-46.
MA Zhaozeng, JIN Lianji, and YIN Xiulan, Formation of Black Patina on Bronze Mirrors Caused by Multiphenol, J. Univ. Sci. Technol. Beijing, 4(1997), No. 2, pp. 43-46.
Citation:
MA Zhaozeng, JIN Lianji, and YIN Xiulan, Formation of Black Patina on Bronze Mirrors Caused by Multiphenol, J. Univ. Sci. Technol. Beijing, 4(1997), No. 2, pp. 43-46.
Applied Science School, USTB, Beijing 100083, China
中文摘要
Hot solution of hydroquinone is oxidized by air forming quinone and quinhydrone, both of which have weak oxidizeability, enabling to oxidize metals on the surface of bronze mirror samples forming black and brilliant patina. SEM and electron micro probe analysis show that Cu content is lower than that of the original alloy due to Cu loss; Sn content is higher than the original alloy in patina. This indicates that humic acid is not the substance resulting in making black patina on the bronze mirror surface, but the black patina which produced from hydroquinone solution absence of Si, Al and Mg.
Hot solution of hydroquinone is oxidized by air forming quinone and quinhydrone, both of which have weak oxidizeability, enabling to oxidize metals on the surface of bronze mirror samples forming black and brilliant patina. SEM and electron micro probe analysis show that Cu content is lower than that of the original alloy due to Cu loss; Sn content is higher than the original alloy in patina. This indicates that humic acid is not the substance resulting in making black patina on the bronze mirror surface, but the black patina which produced from hydroquinone solution absence of Si, Al and Mg.
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