Low thermal and high electrical conductivity in hollow glass microspheres covered with carbon nanofiber–polymer composites

To take advantage of both the low density and thermal conductivity of hollow glass microspheres, and the high mechanical and electrical conductivity of carbon-based nanofillers, micro- and nanosized fillers can be combined into a single composite material. Here we prepared composite materials from h...

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Bibliographic Details
Published in:Composites science and technology 2017-10, Vol.151, p.211-218
Main Authors: Herrera-Ramírez, Luis C., Cano, Manuela, Guzman de Villoria, Roberto
Format: Article
Language:English
Subjects:
Carbon fibers
Carbon nanofibers
Chemical vapour deposition (CVD)
Composite materials
Electrical resistivity
Fillers
Heat conductivity
Hollow glass microspheres
Microspheres
Nanofibers
Polymer matrix composites
Polymer-matrix composites (PMCs)
Studies
Thermal conductivity
Thermal properties
Thermal stability
Weight reduction
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Summary:To take advantage of both the low density and thermal conductivity of hollow glass microspheres, and the high mechanical and electrical conductivity of carbon-based nanofillers, micro- and nanosized fillers can be combined into a single composite material. Here we prepared composite materials from hollow glass microspheres (HGMs) and from the same microspheres surrounded by carbon nanofibers (CNFs). By adding 10% wt. of HGM-CNFs to a high-temperature resin we can obtain a low density (0.8 g/cm3), low thermally (0.17 W/mK) and high electrically conductive (7±3×10−4S/m) composite. This novel method demonstrates the possibility to achieve an unusual combination of properties such as low thermal and high electrical conductivity which, along with their light weight and thermal stability, makes these materials promising for aerospace applications or thermoelectric devices.
ISSN:0266-3538
1879-1050
DOI:10.1016/j.compscitech.2017.08.020