Singular stress layers in ideal fibre-reinforced cylinders

An ideal fibre-reinforced material is defined to be inextensible in one or more directions through each point of the material. It has been found to be a good model for predicting the deformation and stresses produced in real materials which are very much stronger in resisting extension in those dire

In this paper we consider the singular stresses of G-10CR glass-epoxy laminates with a broken layer under tension at low temperatures. The composite material is assumed to be in generalized plane strain. Fourier transforms are used to fomulate the problem in terms of a singular integral equation. Th

A kinematic description is derived for plane strain deformations of unrestricted amplitude in an incompressible material ideally reinforced parallel to one axis of Lagrangian coordinates. The deformation is simply related to the configuration of one reference 'fibre'. For a slab of uniform thickness