Transport properties of heterogeneous materials derived from Gaussian random fields: Bounds and Simulation
arXiv:cond-mat/0004462 · doi:10.1103/PhysRevE.51.4141
Abstract
We investigate the effective conductivity ($Ï_e$) of a class of amorphous media defined by the level-cut of a Gaussian random field. The three point solid-solid correlation function is derived and utilised in the evaluation of the Beran-Milton bounds. Simulations are used to calculate $Ï_e$ for a variety of fields and volume fractions at several different conductivity contrasts. Relatively large differences in $Ï_e$ are observed between the Gaussian media and the identical overlapping sphere model used previously as a `model' amorphous medium. In contrast $Ï_e$ shows little variability between different Gaussian media.
15 pages, 14 figures