Abstract
This review paper examines the current state-of-the-art in fabrication of aligned fibers via electrospinning techniques and the effects of these techniques on the mechanical and dielectric properties of electrospun fibers. Molecular orientation, system configuration to align fibers, and post-drawing treatment, like hot/cold drawing process, contribute to better specific strength and specific stiffness properties of nanofibers. The authors suggest that these improved, aligned nanofibers, when applied in composites, have better mechanical and dielectric properties for many structural and multifunctional applications, including advanced aerospace applications and energy storage devices. For these applications, most fiber alignment electrospinning research has focused on either mechanical property improvement or dielectric property improvement alone, but not both simultaneously. Relative to many other nanofiber formation techniques, the electrospinning technique exhibits superior nanofiber formation when considering cost and manufacturing complexity for many situations. Even though the dielectric property of pure nanofiber mat may not be of general interest, the analysis of the combined effect of mechanical and dielectric properties is relevant to the present analysis of improved and aligned nanofibers. A plethora of nanofibers, in particular, polyacrylonitrile (PAN) electrospun nanofibers, are discussed for their mechanical and dielectric properties. In addition, other types of electrospun nanofibers are explored for their mechanical and dielectric properties. An exploratory study by the author demonstrates the relationship between mechanical and dielectric properties for specimens obtained from a rotating mandrel horizontal setup.
Highlights
Published: 6 January 2021Many advanced applications can benefit from electrospun materials with superior mechanical and dielectric properties, especially in the fields of composite reinforcement and energy
According to Lei metallic et al (2018), more than a meter long aligned nanofibers were fabricated by using gap electrospinning, cylinder with needle placed at the center of the cylinder
Aligned multi-walled carbon nanotube (MWCNT)/polyvinyl alcohol (PVA) composite films were prepared by using electrospinning in situ film-forming technique
Summary
Many advanced applications can benefit from electrospun materials with superior mechanical and dielectric properties, especially in the fields of composite reinforcement and energy. Have applications in structural reinforcement of materials and energy storage devices For these applications, it is paramount to understand the effects of electrospun fiber alignment on mechanical and dielectric properties. Mechanical and dielectric properties are among the most important parameters to determine the performance of the polymeric nanomaterials [4,5] Electrospinning influences both mechanical and dielectric properties of nanofiber membranes [4]. Fibers 2021, 9, 4 performance of the polymeric nanomaterials [4,5] The and nanofibers, usingwith a polymer solution with a syringe pump, syringe,and needle, collector, power and hightypical of ansetup electrospinning apparatus is either horizontal electrospinning voltage power supply.
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