Abstract:
In the present investigation, composites with silicon carbide particle (SiCp) as reinforcement and AZ91
magnesium alloy as matrix have been synthesized using liquid metal stir-casting technique with optimized processing
conditions. The composites with good particle distribution in the matrix, and better grain refinement and good interfacial
bonding between the matrix and reinforcement have been obtained. The effect of SiCp content on the physical, mechanical,
and tribological properties of Mg-based metal matrix composite (MMC) is studied with respect to particle distribution,
grain refinement, and particle/matrix interfacial reactions. The electrical conductivity, coefficient of thermal expansion,
micro- as well as macro-hardness, tensile and compressive properties, and the fracture behavior of the composites along
with dry sliding wear of the composites have been evaluated and compared with the base alloy.
