TIG Assisted FSW 하이브리드 용접을 이용한 이종재(SS400/AZ31B)용접부의 잔류응력 분포 및 부식 특성에 관한 연구

Abstract

Recently, the light weight is required to meet the environmental regulation due to atmospheric pollution, global warming and resource depletion in the world. Therefore, it can be expected that dissimilar joints of Mg alloy and steel is needed for application in the various industry field. However, fusion welding in dissimilar joint of Mg alloy and steel have several problems, such as, deformation, residual stress, solidification cracking and porosity. Also it is difficult to obtain the acceptable mechanical strength because intermetallic compound can be produced. Friction Stir Welding (FSW) is a new solid state joining process which is developed by The Welding Institute of the United Kingdom (TWI) in 1981. However, FSW welded joint of Mg alloy and steel can not obtain the acceptable strength due to high difference in melting point and material flow between the Mg alloy and steel. To solve this problem, GTAW assisted Friction Stir Welding method developed (TIG assisted FSW system) exhibited more than 80% the tensile strength of the parent metal (Mg alloy) with increase in ductility. Therefore, in this study, numerical analysis and corrosion characteristics of dissimilar joints of AZ31B and SS400 were evaluated to verify the reliability by developed TIG assisted FSW system