In-situ formed Cu-based nanocomposite by hot pressing of mechanically alloyed Cu-Zr-Ti composites containing WC particles as a second phase

机译：原位形成Cu基纳米复合材料通过热压含有WC颗粒作为第二阶段的机械合金合金Cu-Zr-Ti复合材料

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In the present study, WC/Cu_(60)Zr_(30)Ti_(10) metallic glass composite powders were prepared by mechanical alloying of pure Cu, Zr, Ti, and WC powder mixtures. Cu_(60)Zr_(30)Ti_(10) metallic glass composite powders were obtained after 5 h of milling as confirmed by X-ray diffraction and differential scanning calorimetry. The metallic glass composites powders were found to exhibit a supercooled liquid region before crystallization. Bulk metallic glass composite BMG with submicron WC particles homogeneously embedded in a highly dense nanocrystalline/amorphous matrix was successfully prepared. It was found that the pressure could enhance the thermal stability and promote nanocrystallization of WC/Cu_(60)Zr_(30)Ti_(10) BMG composites.

机译：在本研究中，通过纯Cu，Zr，Ti和Wc粉末混合物的机械合金化制备WC / Cu_（60）Zr_（30）Zr_（30）Ti_（10）金属玻璃复合粉末。通过X射线衍射和差示扫描量热法证实，在铣削5小时后获得Cu_（60）Zr_（30）Ti_（10）金属玻璃复合粉末。发现金属玻璃复合材料粉末在结晶前表现出过冷液体区域。成功制备块状金属玻璃复合BMG均匀嵌入高致密的纳米晶/非晶基质中的亚微米WC颗粒。发现压力可以增强热稳定性，促进WC / Cu_（60）Zr_（30）Ti_（10）BMG复合材料的纳米晶体化。

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《International Symposium on Metastable, Mechanically Alloyed and Nanocrystalline Materials》|2005年||共4页
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C. C. Wang; J. S. Chen; R. R. Jen; P. Y. Lee;
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中图分类工程材料一般性问题;
关键词
mechanical alloying; bulk metallic glass composites; supercooled liquid region; vacuum hot pressing; pressure-induced nanocrystallization;

机译：机械合金化;散装金属玻璃复合材料;过冷液体区域;真空热压;压力诱导的纳米晶体化;

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In-situ formed Cu-based nanocomposite by hot pressing of mechanically alloyed Cu-Zr-Ti composites containing WC particles as a second phase

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