Abstract

The present work pertains to investigation carried out on the feasibility of locally modifying the surface properties of cast aluminium alloy A356 using friction stir processing (FSP). The friction stir processed zone was characterized by metallography, electron micro probe analysis, hardness, dry sliding wear and potentio dynamic polarization testing. Hardness mapping showed that stir zones experienced increase of 40% compared to the as-cast metal. Further uniform micro-hardness was observed in the friction stir processed zone, which was not the case with as-cast A356 aluminum alloy. The FSP of cast A356 alloy exhibited excellent wear resistance, which is attributed to break-up of the coarse silicon rich eutectic particles, dendrite structure and homogenous distribution of fine Si particulates throughout the α-Al matrix due to intense plastic deformation and mixing during friction stir processing. The friction stir processed zone was also found to have adequate corrosion resistance. This work demonstrates that friction stir processing is an effective strategy for enhancement of wear and pitting corrosion resistance of as cast aluminum alloys

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