Optimization and Mechanical Characterization of AA5083 and AA7075 Dissimilar Aluminium Alloy Joints Produced by Friction Stir Welding

Abstract

In this research work the aluminium alloys including AA7075 and AA5083 are combined with friction stir welding method. This contrasts with factors such as alloy segregation, hot cracking and porosity which result from fusion welding process in the welded area. In order to generate high quality joint of aluminium alloy, friction-stir welding (FSW) an assuring welding method is followed. To achieve the determined strength, an entire control over the relevant process is needed to increase the tensile vitality. The welding factors like welding speed (WS), axial force (AF) and rotational speed (RS) are examined for optimisation. In order to measure the impact of the factors on tensile strength of FS welded joints, Taguchi L9 orthogonal array technique is employed. The amount of involvement of these factors on weld quality is determined by means of analysis of variance (ANOVA). The utmost ultimate tensile strength (UTS) attained for AA7075 and AA5083 joint is 256MPa. ANOVA results show that the quality-wise effectiveness of the weld as welding speed (5.48percent), axial force (15.18percent), then the rotational speed (79.32percent). This is due to the presence of fine equiaxed grains in the microstructures of the stir zones at different FS welding circumstances. However, a decrease in the grain size of the process zone is observed when the frictional heat flow is decreased while friction-stir welding.