The effect of carbon dioxide
(CnormalO2)
on sodium chloride (NaCl) induced atmospheric corrosion of copper was studied in laboratory exposures using microgravimetry, ion chromatography, Fourier transform infrared spectroscopy, and scanning electron microscopy with X-ray microanalysis. With lower amount of NaCl particles on the copper surface
(<15μg∕cm2)
, the corrosion rate was higher with
<1ppm
CnormalO2
than with
350ppm
CnormalO2
, and for higher amount of NaCl
(15μg∕cm2)
, the corrosion was higher with
350ppm
CnormalO2
. With lower amount of NaCl and low
CnormalO2
concentration, a secondary spreading of electrolyte occurred from the droplets that formed at the particle clusters. This led to a larger effective cathodic area and a higher corrosion rate. However, at higher surface concentration of NaCl a spatial interaction effect between the local corrosion sites counteracted the increase in the corrosion rate due to overlap of the cathodic areas from the particles. Another factor, which influenced the corrosion process, was the effect of
CnormalO2
on the pH of the surface electrolyte. Higher pH (
<1ppm
CnormalO2
concentration) increased the formation of CuO, which improved the corrosion resistance of the corrosion product layer but hindered the formation of insoluble CuCl, whereby more soluble chloride ions were available for triggering localized corrosion and accelerating the initial atmospheric corrosion of copper. Hence, the overall influence of
CnormalO2
and NaCl depends on at least three identified mechanisms.
Many national exposure programmes have been performed in tropical and subtropical climates during the last 50 years. However, ambitious programmes involving more than a few countries are scarce. In this paper a recently formed network of test sites is described involving 12 test sites in Asia (India,
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