Details

Autor(en) / Beteiligte

• Liang, Li
• Dachun, Liu
• Heli, Wan
• Kaihua, Li
• Juhai, Deng
• Wenlong, Jiang

Titel

Removal of chloride impurities from titanium sponge by vacuum distillation

Ist Teil von

• Vacuum, 2018-06, Vol.152, p.166-172

Ort / Verlag

Elsevier Ltd

Erscheinungsjahr

2018

Link zum Volltext

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• Thermodynamics analysis and affecting factors of vacuum distillation on removal of chloride impurities from titanium sponge were studied. The theoretical results show that volatilization ability of Mg,MgCl2, TiCl2 and TiCl3 are very strong under vacuum when distillation temperature is more than 800 °C. And chloride impurities could be removed more effectively by improving volatilization rate of MgCl2 at 900 °C–1050 °C with lower residual system pressure. Experimental results showed that chlorine content in the titanium sponge significantly increased with the increasing of system pressure and chlorine content in magnesium reductant. Meanwhile, the removal of chlorine from titanium sponge was very temperature and distillation time dependent. In addition, the chloride impurities were more difficult to be removed with the decreased porosity of titanium sponge. Finally, optimized parameters for distillation furnace with single batch production capacity of 7.5t titanium sponge were achieved. The chlorine content in final titanium sponge product can be controled at or lower than 0.06 wt% when the distillation temperature, system pressure, and distillation time were 980 °C–1000 °C, 0.1 Pa–3 Pa and 150 h–157 h respectively. •The suitable vacuum distillation process parameters are proposed to remove chloride impurities from titanium sponge.•The porous structure of titanium sponge is more favorable for the removal of chloride impurities than the dense structure.•This work would provide essential guidance for the industrial production of Ti sponge with low chlorine impurity.