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Production of Textile Fibers from Zein and a Soy Protein-Zein Blend1

September 1997 Volume 74 Number 5
Pages 594 — 598
Menglin Zhang , 2 Cheryll A. Reitmeier , 3 , 4 Earl G. Hammond , 3 and Deland J. Myers 3

Journal Paper J-16962 of the Iowa Agriculture and Home Economics Experiment Station, Ames, IA. Project 3084. Supported by Hatch Act and State of Iowa funds. Armour Swift-Eckrich, 410 Kirk Road, Saint Charles, IL 60174. Department of Food Science and Human Nutrition and Center for Crops Utilization Research, Iowa State University, Ames, IA 50011. Corresponding author. E-mail: creitmei@iastate.edu


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Accepted May 14, 1997.
ABSTRACT

Zein fibers were successfully prepared by a wet-spinning technique from a zein suspension formulated with 15% zein, 60% water, 22% 0.4N sodium hydroxide, and 3% urea by weight. Tenacities were measured with an Instron machine, and flexibility was determined by noting the smallest diameter rod around which a fiber could be looped without breaking. After spinning, the tenacity of the zein fibers was improved by modification with several agents: acetic anhydride for acetylation, glutaraldehyde, and dialcohols for cross-linking and physical stretching. The tenacity and flexibility of the fibers were measured at 11, 65, and 100% rh. Untreated fibers had tenacities of 3.41, 2.65, and 0.17 g/tex at 11, 65, and 100% rh, respectively. A combination of chemical treatments (20% glutaraldehyde and 95% acetic anhydride) and 115% stretching increased tenacities to 6.89. 6.56, and 1.17 g/tex at 11, 65, and 100% rh, respectively. Control zein fibers had flexibilities of 5 and 2.5 mm at 11 and 65% rh, respectively, whereas the treated fibers had flexibilities of 1.5 mm at both humidities. Extrusion of zein fibers was not successful. Zein-soy protein mixture could be extruded, but properties of wet-spun fibers of zein-soy blends were not much improved over those of soy protein alone. The tenacity of blended soy protein-zein fibers was greater than that of soy protein fibers at 11% rh.



© 1997 by the American Association of Cereal Chemists, Inc.