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Ma J., Zhu S.G. Direct solid-state synthesis of tungsten carbide nanoparticles from mechanically activated tungsten oxide and graphite
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Int. Journal of Refractory Metals and Hard Materials 28, 2010. – pp. –623–627.Abstract
Solid-state carbothermic reduction of tungsten oxide (WO3) to nano-sized tungsten carbide (WC) particles was achieved by calcining mechanically activated mixtures of WO3 and graphite at 1215 °C under vacuum condition. By experiments and thermodynamic calculations, the intermediate phases, WO2.72, WO2 and metallic tungsten (W), were observed at 741 °C, which decomposed to synthesize the final product (WC). Homogeneity increase and associated decrease in the diffusion path by mechanical milling and formation of these intermediates are mainly responsible for the successful production of WC. The process indicates that solid-state synthesis of WC nanoparticles directly from as-milled mixtures of tungsten oxide and graphite powder is possible.
Solid-state carbothermic reduction of tungsten oxide (WO3) to nano-sized tungsten carbide (WC) particles was achieved by calcining mechanically activated mixtures of WO3 and graphite at 1215 °C under vacuum condition. By experiments and thermodynamic calculations, the intermediate phases, WO2.72, WO2 and metallic tungsten (W), were observed at 741 °C, which decomposed to synthesize the final product (WC). Homogeneity increase and associated decrease in the diffusion path by mechanical milling and formation of these intermediates are mainly responsible for the successful production of WC. The process indicates that solid-state synthesis of WC nanoparticles directly from as-milled mixtures of tungsten oxide and graphite powder is possible.
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