Dense B4C material was fabricated using spark plasma sintering (SPS), and the densification mechanisms and grain growth kinetics were revealed. The density, hardness, transverse flexure strength and toughness of samples were investigated and the model predictions were confirmed by SEM and TEM experimental observations. Results show that SPSed B4C exhibits two sintering periods: a densification period (1800-2000 degrees C) and a grain growth period (2100-2200 degrees C). Based on steady-state creep model, densification proceeds by grain boundary sliding and then dislocation-climb-controlled mechanism. Grain growth mechanism is controlled by grain boundary diffusion at 2100 degrees C, and then governed by volume or liquid-phase diffusion at 2200 degrees C.