Condensed Matter Physics (Sep 2017)

Contribution of cellular automata to the understanding of corrosion phenomena

  • M. Zenkri,
  • D. di Caprio,
  • C. Pérez-Brokate,
  • D. Féron,
  • J. de Lamare,
  • A. Chaussé,
  • F. Ben Cheikh Larbi,
  • F. Raouafi

DOI
https://doi.org/10.5488/CMP.20.33802
Journal volume & issue
Vol. 20, no. 3
p. 33802

Abstract

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We present a stochastic CA modelling approach of corrosion based on spatially separated electrochemical half-reactions, diffusion, acido-basic neutralization in solution and passive properties of the oxide layers. Starting from different initial conditions, a single framework allows one to describe generalised corrosion, localised corrosion, reactive and passive surfaces, including occluded corrosion phenomena as well. Spontaneous spatial separation of anodic and cathodic zones is associated with bare metal and passivated metal on the surface. This separation is also related to local acidification of the solution. This spontaneous change is associated with a much faster corrosion rate. Material morphology is closely related to corrosion kinetics, which can be used for technological applications.

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