Processing and superplastic properties of fine grained Si 3 N 4 /Al–Mg–Si composites

Composites with an Al–Mg–Si alloy matrix containing 20 vol.-% of either Si₃N₄ whiskers or Si₃N₄ particulates were extruded at 773 K with a reduction ratio of 100: 1, and tensile experiments were performed under conditions of constant true strain rate. Recrystallisation and dynamic precipitation occurred during hot extrusion so that very small grain sizes of less than ∼ 3 ;μm were produced. The extruded composites showed superplastic behaviour at high strain rates (above 10⁻¹ S⁻¹). The high strain rate superplasticity of the composites is attributed to the very small grain sizes. Internal cavities developed during straining and density studies revealed that the rate of increase of the extent of cavitation was lower at a temperature slightly above the partial melting temperature than at a temperature lower than the partial melting temperature. It is concluded that the presence of a liquid phase restricts the development of cavities because the liquid phase serves to relax the stress concentrations.

MST/3139