In this study, it is designed to investigate the AISI 304 stainless steel after gas tungsten arc welding (GTAW) then go through in three different surface treatment to explore the relationship about the surface and sub-surface residual stress、metallographic study and corrosion test. Three kinds of surface treatment conditions were grinding, shot peening and laser shock peening (LSP). The residual stress was measured by Cr target x-ray analyzer and corrosion test was measured by potentiostat. Result show that welding treated by LSP has largest compressive residual stress and the most deep affect zone in sub-surface, which also has the best corrosion resistance. Furthermore, we can find different surface treatment actually cause the microstructure refinement and homogeneity of microstructure distribution by Debye ring and profile analysis.