Investigation on fibre diameter, wettability and tensile behaviour of electrospun polyacrylonitrile nanofibres
View/ Open
Date
2021-08Author
M. W. Azmil Arif
A. H. Nurfaizey
Z. Mustafa
R. Nadlene
J. Jaafar
N. Tucker
Metadata
Show full item recordAbstract
Surface functionalization using superhydrophobic electrospun nanofibre material is
thought to be feasible and effective to overcome the issue. However, further understanding
on characteristic and mechanical behaviour of electrospun fibres is required. This paper
studied the effect of different electrospinning parameters on fibre diameter, wettability,
and tensile behaviour of polyacrylonitrile electrospun nanofibres. Polyacrylonitrile in
dimethyl-formamide solution of 10 wt.% concentration was electrospun under different
applied voltages and electrospinning distances. The characteristic and behaviour of PAN
electrospun nanofibres were characterised by using scanning electron microscope, water
contact angle method and tensile test. Based on scanning electron micrographs, the
average fibre diameters were in the range of nanometre. It was also observed that
increasing the applied voltage would increase the fibre diameter, meanwhile, increasing
the distance between spinneret and grounded collector would decrease fibre diameter and
fibre deposition rate. The average contact angle and the tensile strength of PAN
electrospun nanofibres also was determined in this study. The results from this study
provide crucial information for the development of new filtration material for membrane
distillation.