High Strain-Rate Compressive Stress-Strain Response of Friction Stir Welded AA2024-T3 Joints in Through-Thickness Direction
Takashi YOKOYAMA and Kenji NAKAI
Abstract:High strain-rate compressive stress-strain characteristics of AA2024-T3 and its welds as produced by the friction stir welding (FSW) process are investigated using the conventional split Hopkinson pressure bar. Friction stir welded AA2024-T3 joints are made under a fixed set of welding conditions. Cylindrical specimens machined along the thickness direction of both the base material and the friction stir weld nugget region are used in the static and impact compression tests. It is shown that the compressive flow stress of the weld nugget is reduced by 7 to 11 % compared with that of the base material, and that both the base material and the weld nugget exhibit almost no strain rate effect up to nearly ε=103/s. Key Words:AA2024-T3, FSW joint, Hopkinson bar, In-plane tensile properties, Micro-hardness test, Strain rate, Through-thickness compressive properties