In this study, Housing and Spindle failed at Friction weld (FRW) interface and sample submitted was from a Passenger vehicle after covering 18410 Kms was considered to address the repeated weld failures reported in Rear Axle Casing. The Metallurgical examinations revealed, chemical composition and hardness found satisfactory whereas Microstructure reveals presence of MnS (Manganese Sulphide) Inclusions at the friction weld interface resulting in insufficient friction weld fusion.SEM and Metallographic examinations confirmed the Orientation of MnS (Manganese sulphide) along the surface of the Spindle that was subjected to Friction welding (FRW) resulting in insufficient weld fusion. Microstructure observation of Spindle shows inclusions of Type A - Thick 2 against the allowable limits in Raw Material Type A - Thick 1. Also, the elongated MnS inclusions at the Friction weld (FRW) Interface act as initiation sites, "Stress raiser "that is more vulnerable to failure due to comparatively less tensile and impact strength than base metal similar to the effect of flake graphite’s in cast iron. Due to the anisotropy and orientation of the sulfide inclusions there is reduction in transverse ductility in reduced area and not much significant effect in longitudinal direction. Inclusion control by calcium treatment or Electro slag re-melting in spindle raw material will significantly improve the ductility and toughness of friction weldments. This paper aims to study the effect of Sulfide inclusions on weldability, mechanical properties of weld Interface and role as fracture initiation site.

Keywords: Manganese Sulfide, Friction Weld, Axle Casing, Friction Material, Fractography, Axle Housing, Inclusions, Weldability, Spindle, Transverse Ductility