Abstract:In this paper, Fe-based coatings were prepared on low-carbon steel substrates by high-velocity arc spraying technology. Optical microscope (OM), scanning electron microscope (SEM) and white light interferometer were used to characterize the microstructure and wear morphology of the coating, and the mechanical properties of the coating were tested by Vickers and friction-abrasion testing machine. The results showed that the coating had a typical lamellar structure, the coating was relatively dense, and the porosity was 1.75± 0.22%. The addition of hard particles improved the microhardness of the coating, and the hardness of the coating was about four times that of the substrate. Meanwhile, the wear loss of the coating was reduced by 78.61% compared to that of the substrate, which forms a deeper furrow for the grinding ball to cut the substrate surface, and the coating was relatively hard, and the groove formed was shallower. The surface layer of the coating appeared brittle cracking and spalling phenomenon, and a large number of abrasive particles were produced, which makes the wear mechanism of the substrate and the coating changed from adhesive wear to abrasive wear.