Settling of silicon carbide particles in cast metal matrix composites

The success of metal matrix composites as potential materials for the manuf acture of engineering components depends on closer control of their microst ructure during processing. One of the important factors influencing the mic rostructure is settling of the particles during liquid processing of these composites. In this paper settling of SiC particles in cast aluminium alloy metal matrix composite was studied as function of particle size, weight fr action and melt temperature during isothermal holding and solidification ex periments. Isothermal holding of A356 aluminium alloy reinforced with 20 wt .% of silicon carbide particles showed that settling occurs at significantl y slower rates than predicted by theoretical models. The results also showe d that the melt temperature appears to have a slight effect on the settling behaviour. Experiments on settling during mixing and solidification reveal ed that at low melt temperatures the volume fraction of particles does not affect the rate of settling but as the melt temperature increases the parti cles tend to settle when present in lower volume fractions. (C) 2001 Publis hed by Elsevier Science B.V.