The role of Sn on the long-term atmospheric corrosion of binary Cu-Sn bronze alloys in architecture

The role of Sn on the long-term atmospheric corrosion of binary Cu-Sn bronze alloys in architecture

[Display omitted] •Long-term atmospheric corrosion and metal release studies of Sn-bronze and Cu metal at urban and marine environments.•The presence of Sn oxides in the native Cu2O rich surface oxide of Sn-bronze improves its barrier properties.•Sn alloying reduces the corrosion rate of Sn bronze a...

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Bibliographic Details
Published in:Corrosion science Vol. 149; pp. 54 - 67
Main Authors: Chang, T., Herting, G., Goidanich, S., Sánchez Amaya, J.M., Arenas, M.A., Le Bozec, N., Jin, Y., Leygraf, C., Odnevall Wallinder, I.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier Ltd 01-04-2019
Elsevier BV
Subjects:
Aesthetic appearance
Architecture
Atmospheric chemistry
Atmospheric corrosion
Binary alloys
Bronze
Chemical analysis
Copper
Copper base alloys
Copper corrosion
Corrosion rate
Evolution
Exposed surfaces
Metal release
Organic chemistry
Patina
Release pattern
Seawater corrosion
Surface oxide
Tin bronzes
Urban growth
Bronze
Patina
Aesthetic appearance
Metal release
Atmospheric corrosion
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Summary:[Display omitted] •Long-term atmospheric corrosion and metal release studies of Sn-bronze and Cu metal at urban and marine environments.•The presence of Sn oxides in the native Cu2O rich surface oxide of Sn-bronze improves its barrier properties.•Sn alloying reduces the corrosion rate of Sn bronze at urban conditions.•No beneficial corrosion effects of Sn alloying at chloride-rich marine conditions.•Metal release marginally influenced by Sn alloying. The role of Sn on the atmospheric corrosion performance of binary Cu-Sn bronze alloys (4–6 wt.% Sn) compared with Cu metal used in outdoor architecture is elucidated in terms of microstructure, native surface oxide composition, patina evolution, corrosion rates, appearance and metal release. Results are presented for non-exposed surfaces and surfaces exposed at different urban and marine sites in Europe up to 5 years and based on multi-analytical findings from microscopic, spectroscopic, electrochemical and chemical investigations. Alloying influenced the corrosion, aesthetic appearance and patina evolution, differently for urban and marine sites, whereas no effects were observed on the release pattern.
ISSN:0010-938X
1879-0496
1879-0496
DOI:10.1016/j.corsci.2019.01.002