Influence of Particle Concentration on the Elemental Penetration Region and Properties of Ni-P-SiC Composite Coatings Prepared through Sandblasting and Scanning Electrodeposition on 45 Steel Surfaces

Ni-P-SiC composite coating was prepared on 45 steel surfaces through sandblasting and scanning electrodeposition to explore the relationship between element penetration region and composite coating properties. The single-factor control variable method with particle concentration as the research variable was used. Results showed that with the gradually increasing concentration of SiC nanoparticles, a trend of first increasing and then gradually decreasing was observed for the surface and cross-sectional microstructure of the coating, interpenetration ability of the elements, adhesion performance, and corrosion resistance. The best deposition quality of the coating was obtained when the concentration of SiC nanoparticles was 3 g center dot L-1. For cross-sectional microstructure, the scratch test revealed that the maximum coating thickness was 17.3 mu m, the maximum range of elemental penetration region was 28.39 mu m, and the maximum adhesion of the composite coating was 36.5 N. The electrochemical test showed that the composite coating had a -0.30 V self-corrosion potential and 8.45 x 10(-7) A center dot cm(-2) self-corrosion current density, the slowest corrosion rate. In addition, the composite coating had the best corrosion resistance and the largest impedance arc radius corresponding to an equivalent impedance value R-2 of 3108 Omega.