doiSerbia

ECAP - new consolidation method for production of aluminium matrix composites with ceramic reinforcement

Šnajdar-Musa Mateja (University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture, Department for Materials, Zagreb, Croatia)
Schauperl Zdravko (University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture, Department for Materials, Zagreb, Croatia)

Aluminium based metal matrix composites are rapidly developing group of materials due to their unique combination of properties that include low weight, elevated strength, improved wear and corrosion resistance and relatively good ductility. This combination of properties is a result of mixing two groups of materials with rather different properties with aluminium as ductile matrix and different oxides and carbides added as reinforcement. Al2O3, SiC and ZrO2 are the most popular choices of reinforcement material. One of the most common methods for producing this type of metal matrix composites is powder metallurgy since it has many variations and also is relatively low-cost method. Many different techniques of compacting aluminium and ceramic powders have been previously investigated. Among those techniques equal channel angular pressing (ECAP) stands out due to its beneficial influence on the main problem that arises during powder compaction and that is a non-uniform distribution of reinforcement particles. This paper gives an overview on ECAP method principles, advantages and produced powder composite properties.

Keywords: powders, extrusion, pressing, aluminium/ceramic composites