Effects of Orthogonal Rotating Electric Fields on Electrospinning Process

M. Lauricella, F. Cipolletta, G. Pontrelli, D. Pisignano, S. Succi
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引用次数: 23

Abstract

Electrospinning is a nanotechnology process whereby an external electric field is used to accelerate and stretch a charged polymer jet, so as to produce fibers with nanoscale diameters. In quest of a further reduction in the cross section of electrified jets hence of a better control on the morphology of the resulting electrospun fibers, we explore the effects of an external rotating electric field orthogonal to the jet direction. Through extensive particle simulations, it is shown that by a proper tuning of the electric field amplitude and frequency, a reduction of up to a $30 \%$ in the aforementioned radius can be obtained, thereby opening new perspectives in the design of future ultra-thin electrospun fibres. Applications can be envisaged in the fields of nanophotonic components as well as for designing new and improved filtration materials.
正交旋转电场对静电纺丝工艺的影响
静电纺丝是一种纳米技术,利用外电场来加速和拉伸带电聚合物射流,从而生产出纳米级直径的纤维。为了进一步减小带电射流的横截面,从而更好地控制所得到的静电纺纤维的形态,我们探索了与射流方向正交的外部旋转电场的影响。通过大量的粒子模拟,表明通过适当调整电场振幅和频率,可以使上述半径减少高达30%,从而为未来超薄电纺丝纤维的设计开辟了新的前景。应用可以设想在纳米光子元件领域以及设计新的和改进的过滤材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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