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Effects of porosity in a model of corrosion and passive layer growth
We introduce a stochastic lattice model to investigate the effects of pore
formation in a passive layer grown with products of metal corrosion. It
considers that an anionic species diffuses across that layer and reacts at the
corrosion front (metal-oxide interface), producing a random distribution of
compact regions and large pores, respectively represented by O (oxide) and P
(pore) sites. O sites are assumed to have very small pores, so that the
fraction of P sites is an estimate of the porosity, and the ratio
between anion diffusion coefficients in those regions is .
Simulation results without the large pores () are similar to those of
a formerly studied model of corrosion and passivation and are explained by a
scaling approach. If and , significant changes are
observed in passive layer growth and corrosion front roughness. For small
, a slowdown of the growth rate is observed, which is interpreted as a
consequence of the confinement of anions in isolated pores for long times.
However, the presence of large pores near the corrosion front increases the
frequency of reactions at those regions, which leads to an increase in the
roughness of that front. This model may be a first step to represent defects in
a passive layer which favor pitting corrosion.Comment: 8 pages, 6 figure
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