During powder sintering, it is widely accepted that the three unfavorable features, i.e., closed-pore hollow powder, satellite powder, and low excess free energy, can affect the densification behavior; however, their specific influences have previously never been determined. In this work, we report the efficient elimination of the three unfavorable features for atomized spherical titanium powder via discharge plasma modification and further clarify their influences on the densification behavior during spark plasma sintering. Our results show that the activation energy of power-law creep for the modified powder is two times lower than that of the atomized counterpart.

• 单位
  华中科技大学