Processing of Al matrix composites reinforced with Al–Ni compounds and Al 2O 3 by reactive milling and reactive sintering

Abstract

Aluminum matrix composites reinforced with Al–Ni intermetallic compounds and Al 2O 3 were obtained by hot pressing of high-energy milled powders. Using the reaction between Al and NiO and aiming to preserve part of the Al content after completing the reaction by increasing the relative amount of Al, composites containing Al 2O 3 and Al–Ni intermetallic compounds were produced. These composites were characterized by X-ray diffraction (XRD) and scanning electron microscopy (SEM). Depending on the Al/NiO molar ratio, the reaction can be activated either during milling or during subsequent hot pressing. Hence, two different processing routes can be used to produce such composites. Starting from powder mixtures with an Al/NiO molar ratio of 15/3, the reaction took place during milling, forming Al 3Ni and Al 3Ni 2 plus Al 2O 3 reinforced Al composite powder, which was consolidated by hot pressing. An Al/NiO molar ratio of 20/3 prevented the reaction from occurring during milling, but enabled it to occur during subsequent hot pressing, forming the same reinforcement phases. The reactive-milled composite is harder and presents higher porosity than the reactive-sintered ones, after consolidation by hot pressing under the same parameters. In the latter route, the longer the milling time prior to hot pressing, the smaller the size of the reinforcement phases.