The purpose of this study was to investigate the effect of activating fluxes to the welding penetration of nickel-base superalloy Inconel 718. Bead-on-plate argon TIG(Tungsten Inert Gas) welding process was made on Inconel 718 plate (UNS N07718, AMS 5596-E) without filling metals. The activating fluxes used in the experiment were SiO2, NiO, MoO3, Cr2O3, TiO2, MnO2, ZnO and MoS2. During the welding process, a charge-coupled device (CCD) was used to record the images of arc profile and voltage. Besides, the microstructure and morphology of the weldments were examined by the optical microscope. Furthermore, the Vickers hardness test was used to determine the mechanical properties of the weldments. According to the measurement results of the width and penetration of the weld bead, the depth to width ratio (D/W ratio) can be calculated. Based on the highest D/W ratio, four fluxes were selected to mix with each other using 50% weight percent each. The mixed fluxes were SiO2-MoO3, SiO2-NiO, MoO3-NiO, SiO2-MoS2, MoS2-NiO and MoS2-MoO3, and the mixed fluxes were used for investigating the effect to the welding penetration and D/W ratio. Under the same welding conditions, the results indicated that all fluxes did enhance the welding penetration of Inconel 718 by 8%~63%. Moreover, the D/W ratio was enhanced up to 125%. Finally, by employing the Taguchi Methods to achieve optimized welding penetration and D/W ratio, six major welding parameters were determined, which were welding current, torch moving speed, argon flow rate, vertex angle of electrode, arc length and the weight ratio of SiO2 and MoO3. The confirm experiment analysis of Taguchi Methods demonstrated that the welding penetration was enhanced 135%, and the D/W ration was also increased 284%.