High stiffness nano-composite fibres from polyvinylalcohol filled with graphene and boron nitride
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Boland C.S, Barwich S, Khan U, Coleman J.N, High stiffness nano-composite fibres from polyvinylalcohol filled with graphene and boron nitride, Carbon, 99, 2016, 280 - 288
Abstract
Here we describe using nanosheets of both graphene and boron nitride, produced
by liquid phase exfoliation, as fillers in composite fibres. The fibres were prepared by
coagulation spinning using polyvinylalcohol as a matrix. We obtained good quality fibres with
diameter and nanosheet volume fraction which could be controlled via the ratio of nanosheet
to polymer injection rates. The mechanical stiffness (modulus, Y) and strength, σB, increased
relatively slowly with volume fraction (dY/dVf 160 GPa and dσB/dVf 0.8 GPa). However,
both stiffness and strength continued increasing with nanosheet content to loading levels of
~20vol%, after which the properties fell off. Such relatively high loading levels result in
impressive mechanical properties with stiffness and strength of up to 30 GPa and 260 MPa
observed. In addition, we found the graphene-filled fibres to be electrically conducting with
conductivities of up to 3 S/m.
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Cited By :1 Export Date: 15 September 2016
Cited By :1 Export Date: 15 September 2016
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Sponsor: Science Foundation Ireland (SFI)
Grant Number: SFI/12/RC/2278
Author's Homepage: http://people.tcd.ie/colemaj
Type of material: Journal Article

