In order to solve the problem of shield hobbing cutter failure due to bias wear and chipping during tunnel boring, TiC-WC/Ni60 coating was prepared on the surface of H13 steel to improve the wear resistance of shield hobbing cutter. In this paper, four kinds of WC-TiC/Ni60 composite coatings with different content ratios of 5 wt% TiC+25 wt% WC, 10 wt% TiC+20 wt% WC, 15 wt% TiC+15 wt% WC and 20 wt% TiC+10 wt% WC were prepared on the surface of H13 steel by using the coaxial powder-feeding laser cladding equipment. The micromorphology, phase, hardness and friction and wear properties were fully studied. The results show that cross-sectional organization of the fused cladding layer mainly consists of columnar crystals, cytocrystals and equiaxial crystals; the hard phases in the fused cladding layer mainly consist of TiWC2, Cr4Ni5W, and Cr3C2, and so on; The microhardness of the cross-section of the fused cladding layer shows a trend of decreasing at first, then increasing and finally decreasing, and the highest hardness of the fused cladding layer occurs at the subsurface of the fused cladding layer; the friction coefficient of the fused cladding layer shows a trend of decreasing first and then increasing; the wear volume of the fused cladding layer is significantly lower than that of the substrate, and the wear volume of the 15 wt% TiC coating is the smallest of 1.313 mm3, which is 86.9 % lower than that of the substrate; the wear mechanism of the substrate is mainly abrasive wear and adhesive wear, and the wear mechanism of the fused cladding layer is mainly brittle spalling, abrasive wear and oxidative wear. The analysis of the experimental results shows that the surface properties of the coating are best when both TiC and WC contents are 15 wt%.