Structure and soft magnetic properties of the bulk Fe 70 Al 5 Ga 2 P 9.65 C 5.75 B 4.6 Si 3 glassy alloy prepared by pulse current sintering with uniaxial pressure were investigated. The sample consolidated in the temperature range of the supercooled liquid region consists only of amorphous phase and has a very high relative density of 99%. The flux density under applied field of 800A/m (B 800 ), maximum permeability (μ max ) and coercive force (H c ) for the sample sintered at 703K in as-made state are 1.08T, 7600 and 12.0A/m, respectively. B 800 and μ max are improved to 1.17T and 8000 by annealing at 723K for 3.6ks. The soft magnetic properties of the bulk Fe-based glassy alloy are superior to those of the bulk Fe-Si-B alloy consolidated amorphous powders. It is considered that the high relative density and good soft magnetic properties for the bulk Fe-based glassy alloy depend upon its high structural homogeneity originated from its high deformability, that is based on the viscous flow arisen from the appearance of supercooled liquid region.