Effect of the incorporation of interfacial elements on the thermophysical properties of Cu/VGCNFs composites
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2010-12-31
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Abstract
Vapour grown carbon nanofibres exhibit high mechanical properties and thermal conductivities. Therefore they are potential reinforcements in composites materials for high strength and high thermal conductivity applications. A problem not yet solved is the promotion of an improved copper/carbon interface. Several strategies have been envisaged for the incorporation of alloying elements (Ni, Co, B and Ti) at the interface. These techniques are based on duplex electroless plating coatings (combination of Cu and Ni or Cu and Co), electroless plating of alloys (Cu-B) and addition of metal nanoparticles (Ti) to Cu matrix deposited by electroless plating. The effect of the incorporation of these metallic elements on the microstructure and thermophysical properties is discussed. B and Ti lead to higher interaction at the Cu/C interface over Ni and Co. This allows the reduction of the coefficient of thermal expansion but regarding the thermal conductivity it was not possible to obtain a value higher than that of copper.
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Barcena , J , Garcia de Cortazar , M , Seddon , R , Lloyd , J C , Torregaray , A & Coleto , J 2010 , ' Effect of the incorporation of interfacial elements on the thermophysical properties of Cu/VGCNFs composites ' , Composites Science and Technology , vol. 70 , no. 16 , pp. 2258-2262 . https://doi.org/10.1016/j.compscitech.2010.05.025