Litcius/Paper detail

Enhancing joint strength of bobbin tool friction stir welded Al–Mg–Si alloy via post-weld aging process

C. Yang, Z.L. Wang, M. Zhang, P. Xue, F.C. Liu, D.R. Ni, B.L. Xiao, Z.Y. Ma

2022Journal of Materials Research and Technology13 citationsDOIOpen Access PDF

Abstract

For the precipitation-strengthened aluminum alloys such as Al–Mg–Si alloys, the friction stir welded (FSW) joints produced with T6-treated plates usually exhibit obvious softening in the heat-affected zones (HAZ), significantly reducing the joint strength. When bobbin tool FSW (BT-FSW) is used, severer softening of the HAZ occurred compared to conventional FSW. It is therefore crucial to achieve precipitate morphology control in the HAZ for BT-FSW through original plate state selecting, welding parameter optimizing, and post-weld artificial aging (PWAA). Compared to the conventional welding process (plates welded directly under T6 condition, T6-BT), in the present work, a post-weld aging process was proposed: the plates under T4 condition were BT-FSWed using optimizing parameters (T4-BT), and then subjected to PWAA (T4-BT-PWAA). The intrinsic microstructural differences between the T6-BT and T4-BT-PWAA joints were revealed. More attentions were paid on the microstructural evolution in the lowest hardness zone (LHZ) during PWAA for the T4-BT joint. The LHZ of the T6-BT joint exhibited an over-aged state characterized by coarsened β′ phase and the hardness in this zone had very limited enhancing space when subjected to post-weld peak aging. For the T4-BT joint, the LHZ was characterized by a low density of precipitates and presented excellent re-precipitating ability of β'' phase during PWAA, with the ultimate tensile strength increased by ∼11.4% compared to its T6 counterpart, which is very beneficial for engineering applications.

Topics & Concepts

Materials scienceFriction stir weldingWeldingUltimate tensile strengthSofteningJoint (building)AlloyMetallurgyPrecipitationComposite materialStructural engineeringMeteorologyPhysicsEngineeringAdvanced Welding Techniques AnalysisAluminum Alloy Microstructure PropertiesAluminum Alloys Composites Properties