High strength-high conductivity carbon nanotube-copper wires with bimodal grain size distribution by spark plasma sintering and wire-drawing

被引:18
作者
Mesguich, David [1 ]
Arnaud, Claire [1 ,2 ]
Lecouturier, Florence [2 ]
Ferreira, Nelson [2 ]
Chevallier, Geoffroy [1 ,3 ]
Estournes, Claude [1 ,3 ]
Weibel, Alicia [1 ]
Josse, Claudie [1 ,4 ]
Laurent, Christophe [1 ]
机构
[1] Univ Paul Sabatier, Univ Toulouse, CIRIMAT, CNRS INPT UPS, 118 Route Narbonne, F-31062 Toulouse 9, France
[2] UPR3228 CNRS UPS INSA UGA, Lab Natl Champs Magnet Intenses, 143 Ave Rangueil, F-31400 Toulouse, France
[3] Univ Paul Sabatier, MHT, PNF2, Plateforme Natl CNRS Frittage Flash, 118 Route Narbonne, F-31062 Toulouse 9, France
[4] Univ Toulouse, UMS 3623, Ctr Microcaracterisat Raimond Castaing, Espace Clement Ader, 3 Rue Caroline Aigle, F-31400 Toulouse, France
来源
SCRIPTA MATERIALIA | 2017年 / 137卷
关键词
Copper; Carbon nanotubes; Spark plasma sintering; Wire-drawing; Nanostructured materials; HIGH ELECTRICAL-CONDUCTIVITY; SEVERE PLASTIC-DEFORMATION; NANOCRYSTALLINE COPPER; MECHANICAL-PROPERTIES; COMPOSITES; CU; MICROSTRUCTURE;
D O I
10.1016/j.scriptamat.2017.05.008
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
Copper and 1 vol% carbon nanotube-copper cylinders with a micrometric copper grain size and either a unimodal or a bimodal grain size distribution were prepared using spark plasma sintering. The cylinders served as starting materials for room temperature wire-drawing, enabling the preparation of conducting wires with ultrafine grains. The tensile strength for the carbon nanotube-copper wires is higher than for the corresponding pure copper wires. We show that the bimodal grain size distribution favors strengthening while limiting the increase in electrical resistivity of the wires, both for pure copper and for the composites. (C) 2017 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.
引用
收藏
页码:78 / 82
页数:5
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