Synergism of Toughening Mechanisms in Whisker‐Reinforced Ceramic‐Matrix Composites

Abstract

The improved fracture resistance of whisker‐reinforced ceramic‐matrix composites involves more than one energy‐absorbing mechanism. The possible mechanisms are reviewed and a micromechanical model evaluating the relative contributions to the overall toughness is presented. The mechanisms involve microcracking, load transfer, bridging, and crack deflection. The synergism of these mechanisms is examined using an energy release rate balance equation. The basic assumption of the proposed model is that the load transfer between the matrix and the whiskers is due to Coulomb friction. The model has been applied to an Al 2 O 3 /SiC whisker composite and shows reasonable agreement with reported experimental results. The role of the thermal residual stresses is also examined in light of the frictional load transfer assumption.