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Studies on alumina dispersion-strengthened copper composites through ball milling and mechanical alloying method

机译：球磨和机械合金化法研究氧化铝分散增强铜复合材料

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Oxide dispersion-strengthened copper has the ability to retain most of its properties at elevated temperatures. Among various processes, powder metallurgy route is ideal because of its efficiency in dispersing fine oxide particles. In this study, copper-alumina composites is produced through powder metallurgy route whereby copper powder, which is the matrix, was mixed with alumina powder, which act as reinforcement. Powder mixtures with different compositions of alumina (2.5wt%, 5wt%, 7.5wt% and 10wt%) were prepared. The mixtures were then mixed either by (a) blending process for 45 minutes in a ball mill or (b) mechanical alloying for 45 minutes in a planetary mill. The mixture was then compacted at 200 MPa and sintered under argon atmosphere at 950°C for 1 hour. Results showed that mechanical alloying has produced Cu-Al2O3 composite with better hardness and lower electrical conductivity compared to those prepared by ball milling method

机译：氧化物弥散强化的铜具有在高温下保留其大部分性能的能力。在各种工艺中，粉末冶金路线是理想的，因为它能有效分散细氧化物颗粒。在这项研究中，铜-氧化铝复合材料是通过粉末冶金法生产的，其中将作为基体的铜粉与用作增强剂的氧化铝粉混合。制备具有不同氧化铝组成（2.5重量％，5重量％，7.5重量％和10重量％）的粉末混合物。然后通过（a）在球磨机中的混合过程45分钟或（b）在行星磨机中的机械合金化45分钟来混合混合物。然后将混合物在200MPa下压实并在氩气氛下在950℃下烧结1小时。结果表明，与通过球磨法制备的Cu-Al2O3复合材料相比，机械合金化具有更高的硬度和更低的电导率

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Hussain Zuhailawati; Koay Han Keong;
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年度 2005
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正文语种 {"code":"en","name":"English","id":9}
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机译：球磨钨铜（W-Cu）复合材料的机械合金化效应

Studies on alumina dispersion-strengthened copper composites through ball milling and mechanical alloying method

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