Abstract:Crystal growth of tungsten during hydrogen reduction of tungsten oxide (WO₃) to prepare coarse grain tungsten powder at high temperature (950 ℃) was studied. The phase composition and morphologies of products were investigated by means of XRD and SEM. The results show that the reduction sequence of hydrogen reduction of WO₃ is WO₃→WO_2.9→W₁₈O₄₉→WO₂→W. The step of WO₂→W is the critical step which determines the grain size of tungsten powder. The partial pressure (p_H2O/p_H2) of H₂O within powder layer shows strong effect on the nucleation and grain growth of tungsten. By increasing the p_H2O/p_H2 within powder layer, well-developed coarse grain tungsten powder with particle size above 15 μm is obtained. After carburizing, the powder can be used to produce ultra-coarse grain cemented carbide with grain size above 5 μm.

Key words: coarse grain tungsten powder; hydrogen reduction of tungsten oxide; crystal growth; partial pressure