Carbon nanofiber-reinforced polymeric nanocomposites

Authors
Jang, ChangwoonHutchins, JohnYu, Jaesang
Issue Date
2013-10
Publisher
KOREAN CARBON SOC
Citation
CARBON LETTERS, v.14, no.4, pp.197 - 205
Abstract
Five vapor-grown carbon nanofiber (VGCNF) reinforced vinyl ester (VE) nanocomposite configurations were fabricated, imaged, and mechanically tested in order to obtain information on the influence and the interactions of the role of the microstructure at lower length scales on the observed continuum level properties/response. Three independent variables (the nanofiber weight fraction and two types of nanofiber mixing techniques) were chosen to be varied from low, middle, and high values at equally spaced intervals. Multiple mixing techniques were studied to gain insight into the effect of mixing on the VGCNF dispersion within the VE matrix. The point count method was used for both lower length-scale imaging techniques to provide quantitative approximations of the magnitude and the distribution of such lower length-scale features. Finally, an inverse relationship was shown to exist between the stiffness and strength properties of the resulting nanocomposites under uniaxial quasistatic compression loading.
Keywords
VINYL-ESTER NANOCOMPOSITES; HIGH-DENSITY POLYETHYLENE; MECHANICAL-PROPERTIES; NANOTUBES; EPOXY; COMPOSITES; DISPERSION; FRACTURE; FIBERS; OPTIMIZATION; VINYL-ESTER NANOCOMPOSITES; HIGH-DENSITY POLYETHYLENE; MECHANICAL-PROPERTIES; NANOTUBES; EPOXY; COMPOSITES; DISPERSION; FRACTURE; FIBERS; OPTIMIZATION; vapor-grown carbon-nanofiber; scanning electron microscopy; transmission electron microscopy; nanocomposites
ISSN
1976-4251
URI
https://pubs.kist.re.kr/handle/201004/127582
DOI
10.5714/CL.2013.14.4.197
Appears in Collections:
KIST Article > 2013
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