Title of article
A three-dimensional simulation of barrier properties of nanocomposite films
Author/Authors
Charles Swannack، نويسنده , , Christopher Cox، نويسنده , , Anastasios Liakos، نويسنده , , Douglas Hirt، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2005
Pages
10
From page
47
To page
56
Abstract
Monte Carlo simulations are conducted in two and three dimensions to compute the diffusion coefficients of gas molecules permeating membranes containing oriented platelets. The effects of platelet aspect ratio, relative separation, loading and spatial dimension are examined. The model of Aris [R. Aris, On a problem in hindered diffusion, Arch. Ration. Mech Anal. 95 (2) (1986) 83–91] is shown to correlate well with a 2D Monte Carlo simulation. However, the Aris model, when compared to a 3D simulation, over-predicts the barrier-effect of filler, by 50% in some cases. Additionally, flaws in idealized geometries for 3D models are addressed and a new 3D geometry is presented. The results have particular value for nanocomposite films at low platelet loadings.
Keywords
Nanocomposite films , Diffusion , Barrier properties , 3D modeling , Monte Carlo simulations
Journal title
Journal of Membrane Science
Serial Year
2005
Journal title
Journal of Membrane Science
Record number
1352020
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