Frontiers in Applied Mathematics and Statistics (Jun 2022)

Transmissibility in Interactive Nanocomposite Diffusion: The Nonlinear Double-Diffusion Model

  • Amit K. Chattopadhyay,
  • Bidisha Kundu,
  • Sujit Kumar Nath,
  • Sujit Kumar Nath,
  • Elias C. Aifantis

DOI
https://doi.org/10.3389/fams.2022.852040
Journal volume & issue
Vol. 8

Abstract

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Model analogies and exchange of ideas between physics or chemistry with biology or epidemiology have often involved inter-sectoral mapping of techniques. Material mechanics has benefitted hugely from such interpolations from mathematical physics where dislocation patterning of platstically deformed metals and mass transport in nanocomposite materials with high diffusivity paths such as dislocation and grain boundaries, have been traditionally analyzed using the paradigmatic Walgraef-Aifantis (W-A) double-diffusivity (D-D) model. A long standing challenge in these studies has been the inherent nonlinear correlation between the diffusivity paths, making it extremely difficult to analyze their interdependence. Here, we present a novel method of approximating a closed form solution of the ensemble averaged density profiles and correlation statistics of coupled dynamical systems, drawing from a technique used in mathematical biology to calculate a quantity called the basic reproduction numberR0, which is the average number of secondary infections generated from every infected. We show that the R0 formulation can be used to calculate the correlation between diffusivity paths, agreeing closely with the exact numerical solution of the D-D model. The method can be generically implemented to analyze other reaction-diffusion models.

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