The fibre waviness inherent in conventional prepreg laminates significantly
reduces their compressive strength. This waviness can be reduced through t
he use of unidirectional fibre rods. In this work, the development of a new
test procedure and specimen design is reported that was used to determine
the compressive properties of pultruded T300/828 and IM7/828 carbon fibre-e
poxy unidirectional rods at room temperature. The IM7/828 system demonstrat
es a higher compressive strength than the T300/828 composite due to stronge
r fibres used and fewer manufacturing defects. Since the fibres as in tensi
on primarily carry the compressive load, the final fracture of the rods occ
urs when the fibres fail. Post-failure examination reveals that failure of
the fibres is microbuckling-induced. This is a bending failure as a consequ
ence of buckling. Other events such as fibre-matrix debonding (splitting) a
nd matrix yielding do not by themselves cause the final failure, but they f
acilitate fibre buckling by reducing the lateral support for the fibres. Mi
crobuckling failure models are used to predict the compressive strength of
the carbon fibre rods; agreement between theory and experiment is acceptabl
e. (C) 2000 Kluwer Academic Publishers.