We have observed by conversion electron Mossbauer spectroscopy (CEMS) that
the irradiation of carbon steel surfaces with an industrial CO2 laser, unde
r different experimental conditions, brings about the formation of alpha-Fe
2O3, Fe2O4 and Fe1-xO. The larger beam-surface interaction times favour die
formation, of greater amounts of Fe3+ oxides (mainly alpha-Fe2O3) within t
he depth that can be probed by CEMS (approximate to 300 nm). A model based
on the numerical solution of the heat-diffusion equation gives evidence tha
t the oxidation processes are mainly dictated by the time at which the meta
l remains at temperatures higher than the melting point. In addition, the s
amples have been subjected to wet-dry corrosion cycles in SO2-polluted atmo
spheres and monitored by GEMS and weight gain. The oxide layer reduces noti
ceably the corrosion rate of steel against corrosion. This protection is re
lated to the composition of the oxidation layer. (C) 1999 Elsevier Science
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