Generation of Polymer Nanofibers Through Electrospinning.
Abstract
Non-woven fabrics composed of nanofibers have a large specific surface area and small pore size compared to commercial textiles. These properties make such non-woven fabrics excellent candidates for filter and membrane applications, particularly in the areas of chemical and biological agent defense. Nanofibers may be produced by electrospinning, which uses an electric field to produce continuous fibers with diameters in the tens of nanometers range. Although the technique has been known for some time, very little information concerning the effect of processing variables such as solution concentration, viscosity, surface tension, flow rate and acceleration voltage on final fiber properties exists in the literature. In this work, nanofibers of polyethylene oxide have been electrospun from a range a solution concentrations and for a range of voltages. Wide angle X-ray diffraction and differential scanning calorimetery indicate that crystal structure is poorly developed in the electrospun fibers, when compared to results obtained from poly(ethylene oxide) powder. Fiber diameter increases with increasing concentration by the 0.53 power. We find that for concentrations of 8% (wt) and greater, a bimodal fiber diameter distribution has been observed, which is analogous to results reported for electrospray experiments. The density of node defects has been shown to increase with increasing voltage for a constant solution feed rate.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jun 01, 1999
- Accession Number
- ADA365794
Entities
People
- David Tevault
- James D. Kleinmeyer
- Joseph M. Deitzel
- Joseph Rehrmann
- Nora C. Becktan
Organizations
- United States Army Research Laboratory