Prediction of the failure properties of short fiber reinforced composites with metal and polymer matrix

The statistical strength of short fiber reinforced composites such as metal matrix composites (MMCs) and polymer matrix composites (PMCs) with different fiber volume fractions is investigated in this work using combined cell models (CCM) and Weibull statistical approach. Statistical combined cell models (SCCM) have been developed, which were originally developed for fiber fracture in composites. This allows to calculate separately the two types of unit cells, i.e. unit cells with unbroken fibers, and with broken ones. The global mechanical behavior of metal or PMCs reinforced with randomly oriented short fibers (e.g., an Al/15 vol.% Al2O3 aluminium matrix composite and PMC with 20 or 30 vol.% glass-fibers) is calculated based on the rule of mixture. In all cases, predictions of the behavior by the SCCM are compared with experiments and they show good agreement. (C) 2003 Elsevier B.V. All rights reserved.