Carbon nanotube composites for thermal management

Biercuk, M. J.; Llaguno, M. C.; Radosavljevic, M.; Hyun, J. K.; Johnson, A. T.; Fischer, J. E.

doi:10.1063/1.1469696

articleApplied Physics LettersApr 15, 2002GREEN OA

Carbon nanotube composites for thermal management

MJM. J. BiercukMCM. C. LlagunoMRM. RadosavljevicJKJ. K. HyunATA. T. Johnson

University of Pennsylvania

Indexed inarxivcrossref

Abstract

Single-wall carbon nanotubes (SWNTs) were used to augment the thermal transport properties of industrial epoxy. Samples loaded with 1 wt % unpurified SWNT material showed a 70% increase in thermal conductivity at 40 K, rising to 125% at room temperature; the enhancement due to 1 wt % loading of vapor grown carbon fibers was three times smaller. Electrical conductivity data showed a percolation threshold between 0.1 and 0.2 wt % SWNT loading. The Vickers hardness rose monotonically with SWNT loading up to a factor of 3.5 at 2 wt %. These results suggest that the thermal and mechanical properties of SWNT-epoxy composites are improved, without the need to chemically functionalize the nanotubes.

Citation impact

1,538

total citations

FWCI: 34.44
Percentile: 100%
References: 15

Citations per year

Authors

6

MJ
M. J. BiercukCorresponding
University of Pennsylvania
MC
M. C. Llaguno
University of Pennsylvania
MR
M. Radosavljevic
University of Pennsylvania
JK
J. K. Hyun
University of Pennsylvania
AT
A. T. Johnson
University of Pennsylvania

Topics & keywords

Topics

Keywords

Carbon nanotube
Thermal conductivity
Percolation threshold
Percolation (cognitive psychology)
Thermal
Carbon fibers
Vickers hardness test
Carbon nanotube metal matrix composites

No related works found for this paper.