The effects of milling and active surfactants on the rheological behavior of powder injection molding feedstock were discussed. The feedstock consists of traditional compositional 90W 7Ni 3Fe powder mixture and a wax based polymer binder. Before mixing feedstock, the powder mixture was milled for different times in a QM 1 high energy ball mill. The viscosity of the feedstock was examined in a capillary rheometer. The rheological behavior was evaluated from viscosity data. The results show that the feedstock belongs to a pseudoplastic fluid, milling decreases viscosity of the feedstock and the sensitivity of viscosity to shear strain rate. The flowability, rheology and powder loading of this feedstock are improved by milling. Active surfactants such as stearic acid (SA) and di n octyl o phthalate (DOP) have great influences on the rheological properties of the feedstock. DOP improves the flowability and rheological stability of the feedstock further. [ The effects of milling and active surfactants on the rheological behavior of powder injection molding feedstock were discussed. The feedstock consists of a traditional compositional 90W 7Ni 3Fe powder mixture and a wax based polymer binder. Before mixing feedstock, the powder mixture was milled for different times in The results of the feedstock was examined in a capillary rheometer. The results of the feedstock was examined from a capillary rheometer. The results of that feed the feedstock belongs to a pseudoplastic fluid, milling decreases viscosity of the feedstock and the sensitivity of viscid to shear strain rate. The flowability, rheology and powder loading of this feedstock are improved by milling. Active surfactants such as stearic acid (SA) and di n octyl o phthalate (DOP) have great influences on the rheological properties of the feedstock . DOP improves the flowability and rheological stability of the feedstock further. [