The purpose of this research is to study the effect of adding several fluxes on the weld penetration and mechanical properties of SAE 1020 low-carbon steel and AISI 304 stainless steel. Butt joint argon MIG(Metal Inert Gas) welding process was made on low-carbon steel SAE 1020 and stainless steel AISI 304 plate. The activating fluxes used in the experiment were MnO2, MgCO3, Cr2O3, MoS2, NiO, MoO3, MgO, Fe2O3, ZnO, SiO2 and TiO2. The experiment found that when using torch moving speed of 346 mm/min and welding voltage of 23.3 V, it will be better mechanical properties. The flux MnO2 is the best of all fluxes according to the weld depth/width ratio(D/W ratio) and reduce the weld FN(ferrite content). The mixed fluxes MoS2-MoO3 can enhance the welding penetration and fusion zone, and it can improve the mechanical properties of the weld micro-hardness and FN. Finally, by employing the Taguchi Methods to achieve optimized welding penetration and the D/W ratio, which were welding voltages, argon flow rate, welding torch travel speed and the weight ratio of MoS2 and MoO3. From the results of Taguchi Methods experiment, the optimal welding parameters for joining of the SAE 1020 carbon steel and the AISI 304 austenitic stainless steel are (1) welding voltages of 21.4 V; (2) argon flow rate of 8 l/min; (3) welding torch travel speed of 403 mm/min; and (4) mixed powder combination of 20% MoS2 and 80% MoO3. Beside, from the results of analysis of variance (ANOVA), the orders of the importance on the D/W ratio of weld pool geometry within the four control factors are (1) welding voltages; (2) mixed powder; (3) welding torch travel speed; and (4) argon flow rate.