Production of Fine Titanium Powder from Titanium Sponge by the Shuttle of the Disproportionation Reaction in Molten NaCl-KCl

Titanium and its alloys are key materials for various fields. Low cost and high-quality titanium powder production methods are crucial for powder metallurgy (PM) and additive manufacturing (AM) of titanium to significantly decrease the manufacturing cost. In this study, the production of titanium powder from raw material titanium sponge was achieved through the shuttle of the disproportionation reaction and the backward reaction of Ti2+ to Ti3+ and Ti metal in molten NaCl-KCl at 750 degrees C. With the addition of a very small amount of TiCl2, over 7 similar to 70 times of titanium powder in mass comparing to the added Ti2+ was obtained. The primary particle size of the powder formed based on the disproportionation reaction was approximately 1 mu m, while the secondary agglomerated particle size was in the range of 25 similar to 50 mu m. No significant difference of the particle size distribution was found for the experimental runs with different TiCl2 concentrations and holding times. The proposed production method of titanium powder from titanium sponge is expected to significantly decrease the production cost of titanium powder.