This paper is aimed at developing a non-local theory for obtaining numerica
l approximation to a boundary value problem describing damage phenomena in
a brittle composite material. The mathematical homogenization method based
on double-scale asymptotic expansion is generalized to account for damage e
ffects in heterogeneous media. A closed-form expression relating local fiel
ds to the overall strain and damage is derived. Non-local damage theory is
developed by introducing the concept of non-local phase fields (stress, str
ain, free energy density, damage release rate, etc.) in a manner analogous
to that currently practiced in concrete [1, 2], with the only exception bei
ng that the weight functions are taken to be C-0 continuous over a single p
hase and zero elsewhere. Numerical results of our model were found to be in
good agreement with experimental data of 4-point bend test conducted on co
mposite beam made of Blackglas(TM)/Nextel 5-harness satin weave. Copyright
(C) 1999 John Wiley & Sons, Ltd.