Scaling characteristics and growth of corrosion product films in turbulent flow solution containing saturated CO2

In the present study, the surface and cross‐section microstructures of the corrosion films were investigated by SEM and the corrosion rate was measured by mass loss at the various conditions associated with the main influencing factors such as temperature, CO2 partial pressure, and flow velocity. Th...

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Published in:Materials and corrosion 2009-01, Vol.60 (1), p.5-13
Main Authors: Yin, Z. F., Zhao, W. Z., Feng, Y. R., Li, Y. H., Yin, C. X.
Format: Article
Language:English
Subjects:
Applied sciences
CO2 partial pressure
Corrosion
Corrosion environments
corrosion film
Exact sciences and technology
lattice model
Metals. Metallurgy
SEM
temperature
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creator Yin, Z. F.
Zhao, W. Z.
Feng, Y. R.
Li, Y. H.
Yin, C. X.
description In the present study, the surface and cross‐section microstructures of the corrosion films were investigated by SEM and the corrosion rate was measured by mass loss at the various conditions associated with the main influencing factors such as temperature, CO2 partial pressure, and flow velocity. The results indicated that the three factors have obvious characteristics and the enhanced interactions among the main influencing factors intensively influence the formation and growth of corrosion film. In addition, there were two corrosion mechanisms connected with the forming film and damaging film. A new lattice model was proposed to describe the general aspects concerning the formation of the corrosion film at the metal surface/solution interfaces.
doi_str_mv 10.1002/maco.200805040
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source Wiley-Blackwell Read & Publish Collection
subjects Applied sciences
CO2 partial pressure
Corrosion
Corrosion environments
corrosion film
Exact sciences and technology
lattice model
Metals. Metallurgy
SEM
temperature
title Scaling characteristics and growth of corrosion product films in turbulent flow solution containing saturated CO2
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