Direct solid-state synthesis of tungsten carbide nanoparticles from mechanically activated tungsten oxide and graphite

J. Ma; S.G. Zhu

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Direct solid-state synthesis of tungsten carbide nanoparticles from mechanically activated tungsten oxide and graphite

机译：机械活化的氧化钨和石墨直接固态合成碳化钨纳米粒子

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Solid-state carbothermic reduction of tungsten oxide (WO_3) to nano-sized tungsten carbide (WC) particles was achieved by calcining mechanically activated mixtures of WO_3 and graphite at 1215℃ under vacuum condition. By experiments and thermodynamic calculations, the intermediate phases, WO_(2.72), WO_2 and metallic tungsten (W), were observed at 741℃, 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.

机译：通过在真空条件下将WO_3和石墨的机械活化混合物在1215℃下煅烧，将氧化钨（WO_3）固态碳热还原为纳米级碳化钨（WC）颗粒。通过实验和热力学计算，在741℃观察到中间相WO_（2.72），WO_2和金属钨（W），分解生成最终产物（WC）。通过机械研磨和这些中间体的形成，均质性增加和扩散路径的相关减少主要是成功生产WC的原因。该方法表明直接从研磨后的氧化钨和石墨粉混合物直接固态合成WC纳米颗粒是可能的。

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《International Journal of Refractory Metals & Hard Materials》 |2010年第5期|共5页
作者
J. Ma; S.G. Zhu;
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正文语种 eng
中图分类有色金属及其合金;
关键词
Solid-state reaction; Nanostructured tungsten carbide; Tungsten oxide;

机译：固相反应纳米结构碳化钨氧化钨;

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1. Direct solid-state synthesis of tungsten carbide nanoparticles from mechanically activated tungsten oxide and graphite [J] . J. Ma, S.G. Zhu International Journal of Refractory Metals & Hard Materials . 2010,第5期

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Direct solid-state synthesis of tungsten carbide nanoparticles from mechanically activated tungsten oxide and graphite

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