Strengthening of Al/Ni-based composites by in situ growth of intermetallic particles

Salmon, Catherine [UCL] Colin, Christophe [Centre des Matériaux P.M. Fourt] Molins, Régine [Ecole Nationale Supérieure des Mines de Paris] Delannay, Francis [UCL]

Squeeze cast Al matrix composites reinforced with continuous fibers of Inconel 601 were submitted to different annealing treatments aiming at tuning the amount of reaction at the fiber/matrix interface. The reaction develops in the form of intermetallic nodules growing onto the fibers. The tensile flow stress of the composites increases with increasing nodule volume fraction at the expense of a progressive loss of ductility. This loss of ductility is due both to the low cohesion of the oxide layer separating the matrix from the nodules and to brittle cracking at the root of attachment of the nodules onto the fibers. Damage development is evaluated from the evolution of strain hardening. The nodules grow underneath the oxide barrier layer that protects the fibers from reacting with Al during squeeze casting. Their mechanism of growth involves the partial reduction of the oxide layer by Al, followed by diffusion of Al and Ni through the Cr-rich oxide layer. (C) 2002 Elsevier Science B.V. All rights reserved.