In this research, VZ2106 filler metal has been applied in the vacuum brazing of three substrates, Nickel/Iron base alloy (Incoloy 800), Ferrous alloy (316L and 304L Stainless steel), respectively. Part of Fe is replaced by Ni in the VZ2106 filler metal, so strength and corrosin resistance are superior to traditional fillers. Brazing was performed by controlling parameters such as brazing temperature, holding time and filler thickness. The microstructure of vacuum brazed joints and distribution of precipitates were observed by SEM, followed by the EPMA quantitative chemical analysis. Brazed joints were made to be conducted by shear test. The relationship between microstructure and shear strength was discussed by failure analyses of fractured surface and its cross section. For IN-800/VZ2106/IN-800, 316L/VZ2106/316L and 304L/VZ2106/304L brazed joints, interfaces of brazing area contained BCrFe intermetallics. They deteriorated the final joint strengths due to the brittleness of precipitates. With the same brazing parameters, the amount of BCrFe intermetallics was less in 316L and 304L joints than that in IN-800 joint, because the diffusion rate of boron in the latter was faster. The results also showed that the precipitates were eliminated from the joint due to the longer holding time, since the boron had more time to diffuse. The effect of raising brazing temperature was the same as that of holding time. The results of shear test showed that all fracture sites appeared at BCrFe intermetallics, and the fracture sites of IN-800/VZ2106/316L and IN-800/VZ2106/304L were located at the IN-800 side. Shear strength of 304L joint was the best, followed by 316L and IN-800 joints. Shear strengths of three substrates were higher than 400 MPa, so the combination of these alloys can be used in industry.