Thermo-mechanical characterization of pinless friction stir welding in AA6060-T4 thin sheets

Abstract

Friction Stir Welding (FSW) is a solid-state welding method, offering superior weld quality for aluminum alloys. Despite its advantages, the thermo-mechanical characteristics of pinless FSW, especially for AA6060-T4 aluminum thin sheets, remain underexplored. This study aims to fill this gap by examining the effects of different welding parameters on the mechanical properties and thermal distribution in pinless FSW of 2 mm AA6060-T4 sheets. Experimental welding tests were conducted using high alloy steel tools and a modified milling machine, with variations in rotation and feed rates. The results show that higher rotation speeds correlate with lower maximum temperatures, and increased feed rates further reduce temperatures. Optimal welding parameters achieved efficiency coefficients as high as 84%. Microhardness profiles indicated minimum hardness in the Thermo-Mechanically Affected Zone (TMAZ) and a significant increase on the advancing side. These findings enhance the understanding of pinless FSW, emphasizing the interaction between welding parameters and mechanical properties. This research advances the application of AA6060-T4 in various industrial sectors by providing valuable insights into optimizing weld quality and mechanical performance.