Investigation of Friction Stir Welding process applied on ASTM 572 steel plates cladded with Nickel-Alloy 625
By Renan Mensch Landell (HZG/LAMEF-UFRGS), Luciano Bergmann (Helmholtz-Zentrum Geesthacht), Carlos Eduardo Fortis Kwietniewski (LAMEF-UFRGS), Natascha Zocoller Borba (Helmholtz-Zentrum Geesthacht), Jorge F. Dos Santos (Helmholtz-Zentrum Geesthacht)
This study was performed to investigate the application of the Friction Stir Welding process in the dissimilar joining of cladded plates. Samples of 4 mm thick ASTM 572 steel plate cladded with 3 mm thick nickel-based alloy 625 were used. In order to limit mixing between the dissimilar materials, a two-steps welding procedure was defined. Different parameters were tested for each step and all samples were analyzed and compared to define the best welding parameters. The specimens were evaluated by light microscopy and by mechanical tests such as microhardness, bending and tensile. Defect free joints have been obtained with a well defined interfacial region between both materials. Preliminary results have shown that in both joints the hardness values in the stirred zone are higher than those measured in the base material (overmatching). This is due to diffusionless phase transformations in the steel microstructure and Hall-Petch effect coupled with precipitation of carbon nitrides in the InconelĀ®625. The mixing zone formed in the interface between both materials is currently being analysed.