Abstract EN:

Quasicrystalline (QC) materials exhibit remarkable mechanical properties at low and intermediate temperatures, such as high hardness together with high elastic modulus. One of the potential applications of QC materials is to use them as the reinforcement phase of composite materials. This study reports about processing, microstructures and mechanical properties of Al-based metal matrix composites (MMC) reinforced by QC particles. Five Al-based MMC were produced using the gas pressure infiltration technique. Al3Mg2, Al, Al-Cu-Mg and Al-Mg-Si matrices were used. They were reinforced by 50 % vol. Fraction of Al-Cu-Fe QC particles. The as-produced composites are rather complex and various phases are formed during the production process. These phases were identified to result from diffusion of both the aluminium and the copper. These composites are characterised by high flow stresses, that are unfortunately accompanied by numerous cracks whatever the temperature deformation. Two composites with an Al matrix initially reinforced by QC particles were prepared by hot isostatic pressing (HIP). With this technique two-phase composites are obtained, but depending on the processing temperature, the reinforcement particles are either of i-phase or !-phase. It is observed that ! particles contribute more positively to the improvement of the mechanical properties than the QC particles. The temperature dependences of "0. 2% suggest that the plastic deformation of the composite Al/!-Al-Cu-Fe is controlled by thermally activated mechanisms. In the composite Al/i-Al-Cu-Fe, in addition to thermally activated mechanism, the contribution of the internal stresses to the hardening of the composite must be taken into account.