Influence of Yttrium Addition on the Reduction Property of Tungsten Oxide Prepared via Wet Chemical Method

Nan Liu¹，Zhi Dong¹，Zongqing Ma¹，Liming Yu¹，Yongchang Liu¹

1. State Key Lab of Hydraulic Engineering Simulation and Safety, School of Materials Science and Engineering,Tianjin University

摘 要：W-Y₂O₃ composite nanopowders prepared via wet chemical method exhibit unique morphologies and micro structures.The yttrium addition during chemical reaction process affects not only the composition of tungsten acid hydrate precursors,but also the reduction property of tungsten oxide transformed from precursors.In this study,the morphology evolution of the samples with and without yttrium during reduction process has been studied,and it is found that the addition of yttrium can exert a strong influence on the reduction route of tungsten oxide and the final morphology of tungsten particles.The cause of the difference of reduction route and tungsten particle morphology is also analyzed.It is suggested that the composition of the samples with yttrium at the beginning of reduction is pure cubic system WO₃（c-WO₃）,and the c-WO₃ particles have c-WO₃ whiskers attached to the surface.This kind of whiskers is essential for c-WO₃ to be reduced directly to tungsten and also helpful to obtain W-Y₂O₃ powders with small size and good uniformity.

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