Sage Journals: Discover world-class research

Abstract

A mathematical analysis is presented of the movement of a single fiber in a high, uniform and also nonuniform electrostatic field. In the present analysis the resistance of the air to a moving fiber is first assumed to be proportional to the square of the speed of the fiber concerned, and secondly the use of Stokes' law is made to express the same resistance. The fiber final-limiting speed, entry speed, and acceleration into the spindle-electrode are calculated. It is shown that in pratice the production by an electrostatic spinning machine could safely be about twenty or more times higher than that of a conventional ring-spinning machine. The equation of the path of a single fiber in a nonuniform electrostatic field is derived.

Get full access to this article

View all access options for this article.

References

Amoto

R. S.

, Electrostatic Spinning Apparatus, U. S. Pat. 3,665,695, May 10, 1972.

Batelle Development Corporation, A Method of and Apparatus for Spinning Textile Fibres, Brit. Pat. 1,085,155, Sept. 27, 1967.

Berschew

J. N.

, Lodungsbildung und Bewegung der Fasern bei Electrostatischen Beflockung, Deutsche Textiltechnik 16, 726–729 (1966).

Doğu

, The Fundamentals of Electrostatic Spinning. Part I: An Analysis of Forces Acting on a Single Fiber, Textile Res. J. 35, 521–532 (1975).

Electrospin Corporation, Method For Producing Composite Yarns, Brit. Pat. 1,377,922, Dec. 18, 1974.

Electrospin Corporation, Electrostatic Spinning Apparatus, Brit. Pat. 1,349,925, April 10, 1974.

Klein

Trummer

, Draw Texturing Techniques, Textile Mfr., pp. 17–23, January, 1972.

Kotter

J. I.

, Electrostatic Fiber Collecting and Yarn Spinning Apparatus, U. S. Pat. 3,696,903, Oct. 10, 1972.

König

, Electrostatic Open-End Spinning Process and Apparatus, Brit. Pat. 1,363,958, Aug. 21, 1974.

10.

Langer

, Open-End Electrostatic Spinning Head, Brit. Pat. 1,349,925, April 10, 1972.

11.

Lee

L. L.

, Phys. Fluids, 10, 820 (1967).

12.

Lord

P. R.

, Spinning in the 70‘s—An Introduction to Break Spinning, Marrow Publ. Co. Ltd., Watford, Herts, England, 1970, p. 122.

13.

Lord

P. R.

, Electrostatic Spinning: Prototype Machine Could be Commercial in Three Years, Textile Weekly 68, 578–580 (1968).

14.

Lünenschlo

Techelyschew

A. M.

, Das Verhalten von Fasern in Electrostatischen Feld. (The Behavior of Fibers in an Electrostatic Field), Textil Praxis Int., p. 190, April 1973.

15.

Motous

, Electrostatic Spinning Processes Offer Increased Output, Textilbetrieb, March, pp. 48–52, 1973.

16.

Radovitskii

J. P.

Streltsov

B. N.

Lyapin

A. G.

, Development of Electrostatic Spinning, Tekstil. Prom. 10, 36–41 (1969).

17.

Radovitskii

V. P.

Streltsov

B. N.

, “Electrodynamics of Textile Fibres, Power Action of Electric Field On Fibres,” Chapter VII, British Library, Lending Division, Boston-Spa, England, 1974.

18.

Ibid., Movement of Fibres in Homogeneous Electric Fields, Chapter VIII, p. 24.

19.

Ibid., Fibres In Homogeneous and Moving Electric Fields, Chapter IX, p. 56.

20.

Tsentralyn Nauchno-Issledovatelsky Institut Ihhlopchatobumazhnci Promyshleunost (Method and Apparatus For Spinning Fibrous Material), Nov. 13, 1968.

21.

Thwaites

J. J.

, The Mechanics of Friction Twisting, J. Textile Inst. 71, 116 (1970).