In this study, magnetic pulsed compaction (MPC), a very short duration, high-density preform molding method was used to produce bulks from initial WC-7.5 wt.% Co and WC-12 wt.% Co with varied consolidation conditions, followed by subsequent sintering. Mechanically alloyed powders with compositions of WC-7.5 wt.% Co and WC-12 wt.% Co were used and combinations of pressures of 0.5G Pa, 1.0 GPa, 1.5 GPa, 2.0 GPa, 2.5 GPa and 3 GPa were applied to form the bulks. Maximum densities for WC-7.5 wt.% Co and WC-12 wt.% Co after magnetic pulsed compaction were found to be around 70%, which later turned nearly 92% after sintering, while a maximum hardness of over 1430 Hv was observed in WC-12 wt.% Co sample. Density, hardness and crack length all suggested a gradual pattern or trend in MPC-ed bulks that can yield almost fully dense, commercially applicable products with high mechanical properties after sintering. (C) 2012 Elsevier B.V. All rights reserved.