Electrochemical Properties And Cavitation Erosion Behaviors Of Hvof Sprayed (Alcocrfeni)(1-X)(Wc-10co)(X) Composite Coatings In Nacl Medium

The (AlCoCrFeNi)(1-X) (WC-10Co)(X) composite coatings were fabricated on 06Cr13Ni5Mo steel by high-velocity oxygen-fuel (HVOF) spraying. The coatings' microstructure, mechanical properties, and corrosion performance were characterized, and the cavitation erosion resistance of the coatings was tested in 3.5 wt% NaCl medium. The influence of the microstructure, mechanical properties, and corrosion resistance on cavitation erosion resistance were discussed. The microhardness and local plastic deformation resistance of the coatings were increased by WC-10Co, while the corrosion resistance of the composite coatings was decreased by severe galvanic corrosion. The cavitation erosion mechanism of the coatings was lamellar spalling. In NaCl medium, the (AlCoCrFeNi)(75)(WC-10Co)(25) (HEA(75)/WC25) coating showed lower cavitation erosion resistance than the AlCoCrFeNi (HEA) coating, which was caused by the galvanic corrosion, uncoordinated deformation and the low bonding strength of the HEA/WC-10Co interface. For the HEA(75)/WC25 coating and (AlCoCrFeNi)(50)(WC-10Co)(50) (HEA(50)/WC50) coating, the cavitation erosion damage of the HEA(75)/WC25 coating was higher than that of the HEA(50)/WC50 coating. When the microstructure and corrosion resistance of the coatings were similar, the cavi-tation erosion resistance was mainly affected by the mechanical property.