Achieving Large Dielectric Property Improvement in
Poly(ethylene vinyl acetate)/Thermoplastic Polyurethane/Multiwall
Carbon Nanotube Nanocomposites by Tailoring Phase Morphology
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Abstract
In
this work, multiwall carbon nanotubes (MWCNTs) were melt compounded
with a poly(ethylene vinyl acetate)/thermoplastic polyurethane (EVA/TPU)
blend to prepare EVA/TPU/MWCNT blend nanocomposites. The effects of
the blend morphology and selective localization of MWCNTs on the dielectric
properties including dielectric constant and loss were systematically
investigated. The results show that when the blend exhibits sea–island
morphology accompanying MWCNT selective localization in island droplets,
the dielectric constant was increased to 1200@100 Hz with addition
of 5 wt % MWCNTs; in addition, the growth of dielectric loss is suppressed
and the values of dielectric loss always remain around 1 with varying
the loading of MWCNTs. Furthermore, based on the investigations of
rheological percolation testing, morphological observation, and selective
localization, the microcapacitor model was evoked to explain the underlying
mechanism for the improvement of the dielectric constant for the blend
with sea–island morphology