The Amplifier - v. 8, no. 3

In this issue...Thanksgiving, Fallout Shelters, Petroleum Engineering, Alumni News, Columbia Riding Club, Debate Team, The March of Dimes, National College Queen

The Amplifier- v. 8, no. 4

In this issue...Anaconda Railroad, Professor Stout, International Club, Hord's Jewelry, KXLF Television station, Coed Club, cyclone fence, Ray Kotow

The Amplifier - v. 8, no. 5

In this issue...Fish and Game Commission, Peace Corps, Great Falls Brewery, George D. McDonald, Glee club, Intramural basketball, Sugar Bowl, Metals Bank

The Amplifier - v. 8, no. 6

In this issue...Sylvia White, Speed Skating, President Kennedy, St. John's Church, Mineral Club, Magma Yearbook, Honor roll, Montana Power Company

The Amplifier - v. 8, no. 7

In this issue...Magma Yearbook, Marvin Senne, Continental Oil Company, NASA, Circle K Club, Mine Rescue training, Walter Mitty, International Club, Stu Stadler

The Amplifier - v. 8, no. 8

In this issue...Butte Civic Orchestra, bed protest, St. Patrick's Day mixer, Coed Club, Mickey O'Brien, baseball, chemistry, Main Hall, United States Senator, Barry Goldwater

The Amplifier - v. 8, no. 9

In this issue...Butte Rotary Club, Grubby Dance, Butte Library Board, National Library Week, Pipestone, Mineral Club, fossil hunting, Robert Burns, Glendive

The Amplifier - v. 8, no. 10

In this issue...Big Butte, M-Day, World's Fair, Montana Day, Photo club, Frank Panisko, Great Falls Brewery, Newman Club Immaculate Conception Church

Analytical Parametric Model Used to Study the Influence of Electrostatic Force on Surface Coverage During Electrospinning of Polymer Fibers

Electrospinning (ES) can readily produce polymer fibers with cross-sectional dimensions ranging from tens of nanometers to tens of microns. Qualitative estimates of surface area coverage are rather intuitive. However, quantitative analytical and numerical methods for predicting surface coverage during ES have not been covered in sufficient depth to be applied in the design of novel materials, surfaces, and devices from ES fibers. This article presents a modeling approach to ES surface coverage where an analytical model is derived for use in quantitative prediction of surface coverage of ES fibers. The analytical model is used to predict the diameter of circular deposition areas of constant field strength and constant electrostatic force. Experimental results of polyvinyl alcohol fibers are reported and compared to numerical models to supplement the analytical model derived. The analytical model provides scientists and engineers a method for estimating surface area coverage. Both applied voltage and capillary-to-collection-plate separation are treated as independent variables for the analysis. The electric field produced by the ES process was modeled using COMSOL Multiphysics software to determine a correlation between the applied field strength and the size of the deposition area of the ES fibers. MATLAB scripts were utilized to combine the numerical COMSOL results with derived analytical equations. Experimental results reinforce the parametric trends produced via modeling and lend credibility to the use of modeling techniques for the qualitative prediction of surface area coverage from ES. (Copyright: 2014 American Vacuum Society.)