On use of weld zone temperatures for online monitoring of weld quality in friction stir welding of naturally aged aluminium alloys

Abstract

6063-T4 aluminium alloy sheets of 3 and 6mm thicknesses were friction stir butt welded using a square tool pin at a wide range of tool rotational speeds. Properties of obtained welds were characterised using tensile tests, optical micrographs, X-ray diffraction, and transmission electron microscopy. Shape, size, and distribution of precipitates in weld zones, and strength and ductility of welds were seen to directly correlate with peak temperatures in weld nugget and heat affected zones, independent of sheet thickness. In addition, fluctuations in measured temperature profiles, for 3mm sheets, were seen to correlate with an increase in scatter of weld nugget zone properties for 3mm sheets. Optimal weld strength and ductility were obtained for peak weld nugget zone temperatures of around 450°C and corresponding peak heat affected zone temperatures of around 360–380°C. Results obtained suggest that, at least for naturally aged aluminium alloys, nature of temperature evolution and magnitudes of peak temperatures in weld nugget and heat affected zones provide information on uniformity of properties in weld zones, overaging of heat affected zones, and formation of tunnel defects from improper material mixing at low weld zone temperatures.