Carbon
 2011
DOI: 10.1016/j.carbon.2011.06.063
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The preparation of double-walled carbon nanotube/Cu composites by spark plasma sintering, and their hardness and friction properties

Christophe Guiderdoni
1
,
Claude Estournès
2
,
Alain Peigney
3
et al.
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Cited by 101 publications
(43 citation statements)
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References 27 publications
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“…%) has no obvious effect on the density of the composites. This is inconsistent with the result reported by Guiderdoni et al [50]. The reason is that the amount of MWCNTs added in the composites was so small that they made little contribution to the density of the composites.…”
Section: Relative Densitymentioning
confidence: 39%

Rapid and low temperature spark plasma sintering synthesis of novel carbon nanotube reinforced titanium matrix composites

Wang
1
,
Zhang
2
,
Sun
3
et al. 2015
Carbon
170
3
39
0
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“…%) has no obvious effect on the density of the composites. This is inconsistent with the result reported by Guiderdoni et al [50]. The reason is that the amount of MWCNTs added in the composites was so small that they made little contribution to the density of the composites.…”
Section: Relative Densitymentioning
confidence: 39%

Rapid and low temperature spark plasma sintering synthesis of novel carbon nanotube reinforced titanium matrix composites

Wang
1
,
Zhang
2
,
Sun
3
et al. 2015
Carbon
170
3
39
0
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“…It is essential in all these cases that the surface of CNTs should be first oxidized in order to ensure good contact with the oxide ceramic matrix. The Vickers microhardness and mechanical wear resistance of copper-based metal matrix composites obtained by spark plasma sintering can also be improved significantly by adding 4 % of double-wall CNTs [240], while the corresponding thermal conductivity values decrease compared with pure copper [241]. Along with doping of other components, the CNTs can also be doped by the cryogel method.…”
Section: Carbon-based Particulate Materialsmentioning
confidence: 96%

Inorganic Cryogels

Shlyakhtin1
2014
Polymeric Cryogels
6
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“…Éste método ha sido ampliamente empleado para sintetizar diversos nanocompósitos NTC-óxido-metal; en efecto composites NTC de doble paredMg 0.99 (Mo 0.25 Co 0.75 ) 0.01 O, han sido sintetizados, logrando controlar el contenido de carbono, mediante la modificación de la temperatura y porcentaje molar de CH 4 durante la síntesis (22,35). Es de gran interés sintetizar NTC en una matriz cerámica puesto que se ha puesto en evidencia el reforzamiento que los NTC confieren al nanocomposite después de haber sido densificado con cerámicos, polímeros o metales (22,36).…”
Section: Compositeunclassified
“…Éste método ha sido ampliamente empleado para sintetizar diversos nanocompósitos NTC-óxido-metal; en efecto composites NTC de doble paredMg 0.99 (Mo 0.25 Co 0.75 ) 0.01 O, han sido sintetizados, logrando controlar el contenido de carbono, mediante la modificación de la temperatura y porcentaje molar de CH 4 durante la síntesis (22,35). Es de gran interés sintetizar NTC en una matriz cerámica puesto que se ha puesto en evidencia el reforzamiento que los NTC confieren al nanocomposite después de haber sido densificado con cerámicos, polímeros o metales (22,36).Derivado de lo anterior, en este trabajo se elaboran polvos cerámicos zirconia -alúmina-Fe por el método de combustión, el polvo obtenido se calcina y posteriormente se sintetizan nanotubos de carbono in situ por el método CCVD, en una atmósfera controlada de H 2 -CH 4 a 1000 °C.Se estudia el efecto del contenido de Fe en la superficie específica tanto en la solución sólida como en el composite El área específica BET de los nanocomposites, así como el porcentaje de carbono en masa, se muestran en la tabla 1. No obstante después de la reducción en atmósfera H 2 -CH 4 a una temperatura de 1000 °C, se exhibe un incremento de la superficie específica, lo que podría ser explicado por un aumento de la cantidad de carbono que también incrementa.…”
unclassified

Síntesis de nanocomposites NTC-13%ZrO<sub>2</sub> – (87-x)Al<sub>2</sub>O<sub>3</sub>-xFe

García1,
Cruz2,
Villanueva-Ibáñez3
et al. 2014
Bol. Soc. Esp. Ceram. Vidr.
0
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