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Abstract
AbstractFree surface electrospinning is a continuous electrospinning method for low-cost, massive production of nanofibers. The interjet distanceλis a critical parameter in free surface electrospinning, which directly determines the nanofiber production efficiency. In this investigation, we studied the interjet distance during free surface electrospinning based on electrohydrodynamic instability theoretically and experimentally, with special interest focused on the effect of surface tension and electric field intensity on the interjet distance. The experimental results indicated that the critical parameters affecting the interjet distance were the surface tension and applied voltage, which was in good compliance with the theoretical prediction. The relationship between interjet distanceλand surface tension followed an allometric law with positive exponential function, and the relationship between interjet distanceλand applied voltage followed an allometric law with negative exponential function. The present results can be used to understand the basic parameters which determine the interjet distance in free surface electrospinning.
Highlights
Free surface electrospinning is a continuous electrospinning method for low-cost, massive production of nanofibers
We studied the interjet distance during free surface electrospinning based on electrohydrodynamic instability theoretically and experimentally, with special interest focused on the effect of surface tension and electric field intensity on the interjet distance
A simple one-dimensional model was formulated based on electrohydrodynamic theory to investigate the evolution of instabilities from a polymer solution in free surface electrospinning process
Summary
Abstract: Free surface electrospinning is a continuous electrospinning method for low-cost, massive production of nanofibers. The interjet distance λ is a critical parameter in free surface electrospinning, which directly determines the nanofiber production efficiency. In this investigation, we studied the interjet distance during free surface electrospinning based on electrohydrodynamic instability theoretically and experimentally, with special interest focused on the effect of surface tension and electric field intensity on the interjet distance. The experimental results indicated that the critical parameters affecting the interjet distance were the surface tension and applied voltage, which was in good compliance with the theoretical prediction. The present results can be used to understand the basic parameters which determine the interjet distance in free surface electrospinning
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