This study simulated 316L stainless steel welding by ANSYS, and the welding method is CO2 laser welding. The high temperature physical properties of material are obtained by JMATPRO simulation for database establishment. The research is a simulation analysis of welding against temperature field and strain-stress field distribution. In that, nonlinear material characteristics within thermo -mechanical coupling process were considered. The 3D simulation of thin sheet metal used independent Gaussian cylinder heat source which possesses 67% thermo-efficiency. Then, one would find there exists little error between the temperature of experiment and the actual measurement. By welding experiment, it was discovered that the angular distortion of workpiece was quite small after welding. For horizontal stress analysis, high temperature of welding heat source results in a larger gradient along weld bead, where metal material expands. However, the region of surrounding metal with cold temperature restrains the expansion of welding bead, so the compressive stress and stain occur. Along with the decrease of temperature, fusing metal in weld bead starts to solidify and the volume of material shrinks continuously. Simultaneously, tensile stress increase in weld bead. For vertical stress analysis, that the compressive stress exists both ends of weld bead is contrary to the tensile stress occurs in the middle.