In this work, polyvinyl
chloride (PVC)/clay nanofiber composites
with various contents were fabricated by the electrospinning process.
The morphology, porosity, density, and mechanical properties of the
nanofiber mats were investigated. In addition, PVC/clay nanofiber
mats were characterized by Fourier transform infrared spectroscopy,
differential scanning calorimetry, and thermogravimetric analysis.
Moreover, the influence of the clay content in the nanofiber mats
and its effect on oil sorption capacity were also evaluated. The results
show that the clay particle diameter affects the fabrication, morphology,
porosity, density, mechanical properties, and sorption capacity of
the nanofiber mats. Adding clay in nanofiber composite materials leads
to higher porosity and a higher oil sorption capacity. PVC/clay nanofiber
mats have a high oil sorption capacity at low temperatures. They exhibit
a high potential to be used as materials to eliminate oil spills under
arctic conditions.
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