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Copper and carbon nanotube-copper nanostructured wires prepared by spark plasma sintering and room-temperature wire-drawing: influence of the copper grain size distribution on tensile strength and electrical conductivity.
D. Mesguich, C. Arnaud, F. Lecouturier, N. Ferreira, G. Chevallier, C. Estournès, A. Weibel, C. Josse, C. Laurent
Scripta Mat 137 (2017) 78-82
http://dx.doi.org/10.1016/j.scripta...

High strength - high conductivity double-walled carbon nanotube - copper composite wires.
C. Arnaud, F. Lecouturier, D. Mesguich, N. Ferreira, G. Chevallier, C. Estournès, A. Weibel, C. Laurent
Carbon 96 (2016) 212-215
http://dx.doi.org/10.1016/j.carbon....

High strength - high conductivity nanostructured copper wires prepared by spark plasma sintering and room-temperature severe plastic deformation.
C. Arnaud, F. Lecouturier, D. Mesguich, N. Ferreira, G. Chevallier , C. Estournès, A. Weibel, A. Peigney, Ch. Laurent
Materials Science and Engineering A - Structural Materials Properties Microstructure And Processing, 649 (2016) 209-213
http://dx.doi.org/10.1016/j.msea.20...

Dog-bone copper specimens prepared by one-step spark plasma sintering.
C. Arnaud, C. Manière, G. Chevallier, C. Estournès, R. Mainguy, F. Lecouturier, D. Mesguich, A. Weibel, L. Durand, C. Laurent
Journal of Material Science, J Mater Sci (2015) 50:7364–7373
http://dx.doi.org/10.1007/s10853-01...

Fils conducteurs nanostructurés (cuivre et composites nanotube de carbone - cuivre) pour application en champs magnétiques intenses.
C. Arnaud, Doctoral Thesis¸ University of Toulouse (2015)