Mechanism of thermal and electrical conductivity in polymer-nanocarbon composites

Autor:	Lyudmyla Vovchenko, Peter Scharff, L. Matzuy, A. Lazarenko, Yu. I. Prylutskyy, Uwe Ritter
Rok vydání:	2009
Předmět:	chemistry.chemical_classification Mechanical Engineering Polymer Epoxy Atmospheric temperature range Condensed Matter Physics Thermal conductivity chemistry Mechanics of Materials Electrical resistivity and conductivity visual_art Percolation visual_art.visual_art_medium General Materials Science Graphite Composite material Temperature coefficient
Zdroj:	Materialwissenschaft und Werkstofftechnik. 40:268-272
ISSN:	1521-4052 0933-5137
DOI:	10.1002/mawe.200900439
Popis:	The electrical and thermal conductivity of nanocarbon filled polymers were studied by adding nanocarbon fillers (thermoexfoliated graphite (TEG) and dispersed TEG (nanoTEG)) to epoxy resin (ED) or polyethylene oxide (PEO). The content of filler in composite materials (CM) was (0.5–10) wt%. The temperature range of the investigations was (77–300) K for electrical conductivity and (150–423) K for thermal conductivity, respectively. It was found that electrical conductivity of CM obeys percolation dependence with low critical concentration cr∼(1–2) wt% (φcr∼(0.56–1.1) vol%) and characterised by a positive temperature coefficient. The thermal conductivity is approximately linear on nanocarbon content. The model describing the mechanisms of electrical and thermal conductivity of CM had been proposed. The basic parameters of this model are following: content of nanocarbon anisotropic particles and their distribution in polymer matrix; the contact thermal (electrical) resistance both between the filler particles and on the interface of two phases – polymer-carbon filler.
Databáze:	OpenAIRE
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