Thermal, electrical and wear behavior of sintered Cu-W nanocomposite

N. Selvakumar; S.C. Vettivel

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Thermal, electrical and wear behavior of sintered Cu-W nanocomposite

机译：烧结Cu-W纳米复合材料的热，电和磨损行为

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High-energy mechanical milling was used to prepare Cu and W nanopowders. Cylindrical preforms with initial theoretical density of 86% were prepared using a die and punch assembly. The preforms were sintered in a muffle furnace and subsequently furnace cooled and then the hot specimens were extruded to attain 93% theoretical density. Differential Scanning Calorimetry and Thermal Gravimetric Analyzer, four point probe tester, Scanning Electron Microscope and pin on-disc system were used to evaluate the ther-mal, electrical conductivity, characterization and tribological property of Cu-W composite respectively and using curve fitting method the respective polynomial and power law model were developed. The results indicated that the wear rate decreased with increasing applied load and sliding distance. The composites were tested at high sliding speed which exhibited high value of coefficient of friction.

机译：高能机械研磨用于制备铜和钨纳米粉。使用模具和冲头组件制备初始理论密度为86％的圆柱形预成型坯。将预成型坯在马弗炉中烧结，然后进行炉冷，然后将热样品挤出，以达到93％的理论密度。用差示扫描量热和热重分析仪，四点探针测试仪，扫描电子显微镜和针盘系统分别评估了Cu-W复合材料的热，电导率，表征和摩擦学性能，并采用曲线拟合的方法。分别开发了多项式和幂律模型。结果表明，磨损率随着施加的载荷和滑动距离的增加而降低。在高滑动速度下测试了复合材料，该复合材料表现出高的摩擦系数值。

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《Materials & design》 |2013年第4期|16-25|共10页
作者
N. Selvakumar; S.C. Vettivel;
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Department of Mechanical Engineering, Mepco Schlenk Engineering College, Virudhunagar 626 005, Tamil Nadu, India;

Department of Mechanical Engineering, PET Engineering College, Vallioor 627 117, Tamil Nadu, India;

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Thermal, electrical and wear behavior of sintered Cu-W nanocomposite

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