Journal of Materials Research and Technology (Nov 2022)
Microstructural characteristics and mechanical properties of Ti–6Al–2Nb–2Zr–0.4B alloy welded joint using tungsten inert gas welding
Abstract
Ti–6Al–2Nb–2Zr–0.4B alloy plates were welded using tungsten inert gas welding with a new matching welding wire, and the chemical composition, microstructure, and mechanical properties of the defect-free welded joint were investigated. Furthermore, the influence mechanism of the TiB phase on the mechanical properties of the welded joint was analyzed. The results indicated that the B content in the weld metal is only 0.0145% with trace TiB phase. A large amount of TiB phases precipitate in the fusion zone and aggregate at the grain boundary. The TiB phases in the heat-affected zone are distributed diffusely. The microhardness of the weld metal (295 HV) is the lowest, followed by the heat-affected zone (331 HV), and the fusion zone (341 HV) is the highest. The ultimate tensile strength and elongation of the welded joints are 782 MPa and 12.3%, which are about 93.3% and 77.8% that of the base metal, respectively. The impact toughness of the fusion zone is 22 J, which is 53.7% that of the base metal (41 J) and lower than that of the weld metal (56 J) and heat-affected zone (36 J).
