SUS420 stainless steel is martensitic series stainless steel and its steel material contains chromium and it can form oxidation film on its surface to protect the steel from oxidation, so it has excellent corrosion resistance. As the martensitic series stainless steel contains higher carbon content, it can improve mechanical properties through thermal treatment and it is characterized by high hardness and high wear resistance. The experiment in this research was implemented in three parts: (1) First of all, the steel materials went through gas nitriding/carburizing and then quenching and tempering were done. Pre-dissociated ammonia gas and methanol dissociation gas were mixtured for the treatment of nitriding/carburizing; nitrogen and carbon atom solution treatment was performed on the surface of specimen and then quenching and tempering were implemented to increase hardness. It is expected to avoid the occurrence of surface hardening and low hardness in the center of steel through the improvement of thermal processing ; (2) The traditional gas nitrocarburizing: the steel material was firstly quenched and then the subsequent gas nitriding/carburizing treatment was done. (3) The traditional gas carbonitriding: the carbonitriding and quenching were done under high temperature and then tempering was performed, so as to discuss the effect of different temperature and time on the hardness distribution, microstructure and corrosion resistance of martensitic series stainless steel. The main experimental results in this research are shown as below: (1)With the holding time increases, the precipitate layer grows thicker during gas nitriding/carburizing. During low-temperature gas nitriding/carburizing, the boundary between precipitate layer and base material is not obvious; during high-temperature gas nitriding/carburizin, there exists obvious boundary between precipitate layer and base material. (2)During gas nitriding/carburizin, the hardness is higher when the eutectoid temperature is less than Fe-C and Fe-N and holding time is short. For example, 570℃×6hr nitriding/carburizin can gain the maximum hardness in this experiment, but the soft layer area is generated on the subsurface layer. (3)SUS420 stainless steel should firstly go through 570℃×3hr nitrocarburizing and then it is quenched ,and finally it is tempered, the corrosion resistance to hydrochloric acid, sulfuric acid and nitric acid will be improved. (4)After traditional gas nitrocarburizing, the hardness in the center of SUS420 stainless steel will become lower because the treatment temperature of nitrocarburizing is too high. (5)After traditional gas carbonitriding, the significant surface hardening effect can be achieved in a short time, but the intergranular oxidation appears on the steel surface.