Microstructural Development in Friction Welded Aluminum Alloy with Different Alumina Specimen Geometries
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Author: Uday M. Basheer, Ahmad-Fauzi Mohd Noor
Abstract:
Friction welding, one of the most effective, energy- saving processes for solid-state joining of similar and dissimilar materials, holds the advantage of high joint integrity. The friction welding of metal and ceramic gives new possibilities of application due to the fact that both materials have significantly distinguish physical, chemical and mechanical properties. Different specimen geometries (flat, pin and taper pin ceramic faces with flat metal face) of alumina and 6061-aluminum alloy were welded by direct drive friction welding to investigate the effect of joint geometry on microstructural development, microhardness and thermal properties of friction-welded components. The welding process was carried out under different axial pressures and friction times while rotational speed (1250 rpm) and axial force (5000N) were kept constant. The experimental results showed that the shape of ceramic face had a significant effect on the joint structure, microhardness and thermal properties.
Keywords: Alumina; Aluminum Alloy; Friction Welding; Joint Geometries; Microstructure; Vickers Microhardness
