Synergistic enhancement of thermal conductivity in composites filled with expanded graphite and multi-walled carbon nanotube fillers via melt-compounding based on polymerizable low-viscosity oligomer matrix

Authors
Kim, Hyun SuKim, Jong HyeokYang, Cheol-MinKim, Seong Yun
Issue Date
2017-01-05
Publisher
ELSEVIER SCIENCE SA
Citation
JOURNAL OF ALLOYS AND COMPOUNDS, v.690, pp.274 - 280
Abstract
We found that the thermal conductivity of the polycarbonate (PC) composite filled with both 9.9 wt% expanded graphite (EG) and 0.1 wt% multi-walled carbon nanotube (MWCNT) fillers was synergistically improved by 49% compared to that of the PC composite filled with 10 wt% EG alone. In order to induce the optimal internal structure favorable for thermal conduction by enhancing the dispersion of the second MWCNT fillers, we applied a two-step melt-compounding to fabricate composites using a MWCNT masterbatch based on a polymerizable oligomer resin, cyclic butylene terephthalate (CBT), which is characterized by ultra-low viscosity and excellent impregnability during'initial melting. Three-dimensional (3D) non-destructive characterization using X-ray micro computed tomography (micro-CT) was utilized to demonstrate the synergistic enhancement and to verify dispersion and 3D thermal network of the fillers in the composites accurately. The synergistic enhancement was significantly affected by the formation of the efficient thermally conductive pathways and dispersion of the second MWCNT fillers. (C) 2016 Elsevier B.V. All rights reserved.
Keywords
GRAPHENE NANOPLATELETS; THERMOPLASTIC COMPOSITES; ELECTRICAL PERCOLATION; THEORETICAL APPROACH; HEAT-FLOW; DISPERSION; IMPROVEMENT; PARTICLES; FIBER; MODEL; GRAPHENE NANOPLATELETS; THERMOPLASTIC COMPOSITES; ELECTRICAL PERCOLATION; THEORETICAL APPROACH; HEAT-FLOW; DISPERSION; IMPROVEMENT; PARTICLES; FIBER; MODEL; Composite materials; Heat conduction; Thermal analysis; X-ray spectroscopy
ISSN
0925-8388
URI
https://pubs.kist.re.kr/handle/201004/123215
DOI
10.1016/j.jallcom.2016.08.141
Appears in Collections:
KIST Article > 2017
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