This research aims to replace the activator NH 4Cl in a vanadizing agent and reduce air pollution and harm to the human body. This study adopts powder pack cementation to prepare the vanadizing layer on the surface of GCr15 steel, focusing on the influence of the activator types (NH 4Cl, CuCl, CuCl+Cr powder, and CuCl+Ni powder) on the structure and properties of the vanadizing layer on the surface of GCr15 steel. The results show that the vanadizing layer is prepared on the surface of GCr15 steel with different activators and that they are closely bonded to the matrix. The main phase composition of the vanadizing layer is VC x, and it has a preferred orientation on the (111) crystal surface. When the type of activator is NH 4Cl, the prepared vanadizing layer has a lower friction factor. When the activator type is CuCl+Cr powder, the prepared vanadizing layer has less inclusions, the thickness of the vanadizing layer is the highest at 10.87 μm, and the hardness is the highest at 2331.7HV. Considering the thickness of the layer, the hardness, and the wear resistance, the best performance of the vanadizing layer was obtained when the activators were CuCl+Cr powder.