The effects of rare earth ferrosilicon on the microstructure and anti-wear properties of laser-clad Fe-based alloy coating were investigated. The composition of Fe, B_4C and rare earth ferrosilicon powders with different contents of lanthanum were clad onto a 45~# carbon steel substrate. Microstructural features, chemical compositions, phase structure, hardness, friction and wear properties by scanning electron microscopy (SEM), X-ray photoelectron microscopy (XPS), hardness tester, block-on-ring friction and wear tester of the clad coating were determined. Experimental results show that the friction coefficient of the clad coating doped with rare earth ferrosilicon is reduced while the wear resistance of clad coating doped with rare earth ferrosilicon is enhanced. When the content of lanthanum increases to 1.92%, the clad coating shows the best anti-wear ability, and as the content of lanthanum exceeds 1.92%, the wear weight loss increases quickly. The rare earth ferrosilicon to be doped in the clad coatings helps to disperse the boride phase (Fe_2B, FeB, B_4C) particles and refine the grain of boride phase. The enhancement of clad coating′s wear resistance is due to the existence of dispersed boride phases. The effects of rare earth ferrosilicon on the microstructure and anti-wear properties of laser-clad Fe-based alloy coating were investigated. The composition of Fe, B_4C and rare earth ferrosilicon powders with different contents of lanthanum were clad onto a 45 ~ # carbon steel substrate. Microstructural features, chemical compositions, phase structure, hardness, friction and wear properties by scanning electron microscopy (SEM), X-ray photoelectron microscopy (XPS) coating results determined the friction coefficient of the clad coating doped with rare earth ferrosilicon is reduced while the wear resistance of clad coating doped with rare earth ferrosilicon is enhanced. shows the best anti-wear ability, and as the content of lanthanum exceeds 1.92%, the wear earth loss increases quickly. The rare earth ferrosilicon to be do ped in the clad coatings helps to disperse the boride phase (Fe_2B, FeB, B_4C) particles and refine the grain of boride phase. The enhancement of clad coating’s wear resistance is due to the existence of dispersed boride phases.