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

机译：高强度高导电性碳纳米管-铜线的火花等离子体烧结和拉丝双峰粒度分布

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Copper and 1 vol% carbon nanotube-copper cylinderswith 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-copperwires 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.

机译：使用火花等离子体烧结制备了具有微米级铜粒度且具有单峰或双峰粒度分布的铜和1 vol％碳纳米管-铜圆柱体。圆柱体用作室温拉丝的起始材料，可以制备具有超细晶粒的导线。碳纳米管-铜线的抗拉强度高于相应的纯铜线。我们表明，对于纯铜和复合材料，双峰晶粒尺寸分布有利于增强，同时限制了导线电阻率的增加。

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Mesguich David; Arnaud Claire; Lecouturier Florence; Ferreira Nelson; Chevallier Geoffroy; Estournès Claude; Weibel Alicia; Josse Claudie; Laurent Christophe;
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1. High strength-high conductivity carbon nanotube-copper wires with bimodal grain size distribution by spark plasma sintering and wire-drawing [J] . Mesguich David, Arnaud Claire, Lecouturier Florence, Scripta materialia . 2017,第期

机译：高强度 - 高电导率碳纳米管 - 具有双峰晶粒尺寸分布的火花等离子体烧结和拉丝的碳纳米管 - 铜线
2. High Strength-High Conductivity Silver Nanowire-Copper Composite Wires by Spark Plasma Sintering and Wire-Drawing for Non-Destructive Pulsed Fields [J] . Tardieu Simon, Mesguich David, Lonjon Antoine, IEEE Transactions on Applied Superconductivity . 2020,第4期

机译：高强度高电导率银纳米线 - 铜复合电线通过火花等离子体烧结和无损脉冲场的牵引
3. High strength-high conductivity nanostructured copper wires prepared by spark plasma sintering and room-temperature severe plastic deformation [J] . Claire Arnaud, Florence Lecouturier, David Mesguich, Materials Science and Engineering . 2016,第JANa1期

机译：火花等离子体烧结及室温严重塑性变形制备高强度高导电纳米结构铜线
4. EFFECT OF A BIMODAL DISTRIBUTION OF GRAIN SIZE ON THE TENSILE PROPERTIES OF FERROUS ALLOYS PRODUCED BY SPARK PLASMA SINTERING OF NANOSTRUCTURED POWDERS [C] . A.Molinari, S. Libardi, M. Zadra, Advances in powder metallurgy particulate materials - 2008 . 2008

机译：晶粒大小的双峰分布对纳米结构粉末火花等离子体烧结产生的铁合金的拉伸性能的影响
5. Particle Size/ Grain Size Correlation and Mechanical Properties of Spark Plasma Sintered 8Y-ZrO2, MgAl2O4, and Al2O3 Based Composites [D] . Karandikar, Keyur Kashinath. 2018

机译：等离子烧结8Y-ZrO2，MgAl2O4和Al2O3基复合材料的粒径/粒度相关性和力学性能
6. Passive Film Properties of Bimodal Grain Size AA7075 Aluminium Alloy Prepared by Spark Plasma Sintering [O] . Wenming Tian, Zhonglei Li, HuiFeng Kang, 2020

机译：通过火花等离子体烧结制备的双峰粒度AA7075铝合金的无源膜性能
7. High strength-high conductivity carbon nanotube-copper wires with bimodal grain size distribution by spark plasma sintering and wire-drawing [O] . Mesguich, David, Arnaud, Claire, Lecouturier, Florence, 2017

机译：高强度高导电性碳纳米管-铜线的火花等离子体烧结和拉丝双峰粒度分布

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

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