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Influence of Particle Size on the Twin-Screw Extrusion of Corn Meal1

September 1997 Volume 74 Number 5
Pages 656 — 661
B. W. Garber , 2 F. Hsieh , 2 , 3 and H. E. Huff 2

Contribution of the Missouri Agricultural Experiment Station, Journal Ser. 12,603. Departments of Biological and Agricultural Engineering and Food Science and Human Nutrition, University of Missouri, Columbia, MO 65211. Corresponding author. E-mail: fu-hung_hsieh@muccmail.missouri.edu


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Accepted June 11, 1997.
ABSTRACT

Effects of particle size (50–1,622 μm), screw speed (200–400 rpm), and feed moisture content (19–22%) on twin-screw extrusion of corn meal were investigated using a full-factorial design. Torque, specific mechanical energy, and product temperature generally showed no change within the commonly used particle-size range (100–1,000 μm), but each value dropped significantly as the particle size increased >1,000 μm. Die pressure was influenced by the three-way interaction of particle size, screw speed, and feed moisture content. The highest moisture level (22%), largest particle size (1,622 μm), and two lowest screw speeds (200 and 300 rpm) were the only conditions where the starch was <97.5% of transformation (gelatinization). Consequently, these two conditions also showed the least expansion and hardest product.



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