Development of hard and wear-resistant SiC-AISI304 stainless steel clad layer on low carbon steel by GMAW process

In the present investigation, a successful attempt has been done to utilize conventional gas metal arc welding (GMAW) setup to develop SiC reinforced AISI 304 stainless steel (ASS) clad layer on low carbon steel (LCS) substrate. The characteristics of the clad bead like bead profile and dilution depend on the GMAW processing parameters like GMAW voltage and consumable wire feed rate (CWFR). The clad deposition at a higher voltage range (30 V) developed a defect-free, uniformly distributed fine SiC-reinforced clad layer with better clad dilution with the substrate. Further, the SiC-reinforced clad layer showed a uniform distribution of fine SiC particles in the steel matrix and also the formation of different hard intermetallics like CrSi2, Mn3Ni2Si, Fe2C, Fe5C2, and Cr7C3 in the clad layer. The SiC-reinforced clad surface showed a significant improvement in Microhardness (up to 504 HV0.5) compared to the steel substrate (180 HV0.5). The clad layer also improved the adhesive wear resistance (upto 8.7 times) and abrasive wear resistance (upto 1.7 times) of low carbon steel substrate.