The purpose of this study is to understand the characteristics of solid nitriding. The effect of solid nitriding on the wear resistance of cold working tool steel such as SKD11, SKH51 and DC53 will be discussed in this article. The above steel sample was nitrided at various temperatures for different time. Then, the microstructure, hardness distribution, nitrogen contents and wear resistance of the nitrided layer was examined for each solid nitriding condition. Moreover, above experimental data was compared with those of conventional NH3 gas nitriding. The results were summarized as follows: 1.In order to obtain an effective surface hardness and the more dense compound layer, the temperature ranging from 500℃ to 550℃ was the optimal temperature for the solid nitriding. 2.The compound layer of steel after the solid nitriding was rather dense and not easy to crack or spall off. It is not necessary to remove the layer by grinding before application. 3.The steel has hardening effect as long as the solid nitriding temperature over 480℃. The wear resistance of nitrided layer increases with increasing nitriding temperature or time. The dies and machine parts should be nitrided under appropriate conditions depending on their application reguirement. Besides, the wear resistance of the nitrided layer was the best for the steel nitrided at 550℃. As to the steel nitrided at 600℃, the holes will appear in the compound layer and nitrides will become coarse. Therefore, both the surface hardness and the wear resistance will decrease. 4.The nitriding at low temperature 480℃~500℃ was not easy to produce deformation, so this method could be applied to the precision machine parts. 5.The compound layer of solid nitriding was permeated with not only nitrogen but also carbon. Although the nitrided layer was not as thick as that of the gas nitriding, the compound layer had better toughness and wear resistance.This point was similar to Tufftriding.