The knowledge of the mechanical behaviour of dry woven fabrics is necessary
in many applications. The aim of this study is to recall the specificity o
f the mechanical behaviour of dry fabrics and to understand the local pheno
mena that influence the macroscopic behaviour. For this, 3D finite element
analyses of elementary patterns are performed. These calculations are not c
lassical due to the constitution of the yarns made of a lot of small fibres
. The possible motions of the yarns allow changes of undulation leading to
nonlinear biaxial tensile behaviour and the lack of most of the other stiff
nesses. The specificities of the calculation in order to reach this behavio
ur an described. The model is compared to biaxial tests on several fabrics.
Such a model allows to understand the phenomena implicated in the behaviou
r and the main aspects that lead to the specific behaviour of woven media.
It can also bring a help for the design of new fabrics in changing some mec
hanical and geometrical parameters in order to get prescribed properties. (
C) 2000 Elsevier Science B.V. All rights reserved.