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Effect of Plasticizer Type on the Mechanical Behavior and Microstructure of Edible Peanut Protein Films
Technical Paper
1999-01-2064
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
The use of three different plasticizers sorbitol, glycerol, and polyethylene glycol were investigated in the production of edible peanut protein films. Eight films of each plasticizer type were prepared with plasticizer to protein ratios of 2:5 (28.6%), 3:5 (37.5%), 4:5 (44.5%), and 5:5 (50%). The effect of plasticizer content on the mechanical properties was studied. Sorbitol-plasticized films exhibited maximum strength and modules at 44.5% plasticizer content. For glycerol-plasticized films, with the increase of plasticizer content, both the elastic modulus and the strength of the films decreased. Polyethylene glycol-plas-ticized edible peanut protein films were not evaluated mechanically because they were too brittle to be tested. Correlation between the mechanical properties and the morphological features of these films was established. The sorbitol- and glycerol-plasticized films demonstrated promising results towards future food packaging and preservation applications.
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Citation
Patrick, N., Aglan, H., Gan, Y., Jones, G. et al., "Effect of Plasticizer Type on the Mechanical Behavior and Microstructure of Edible Peanut Protein Films," SAE Technical Paper 1999-01-2064, 1999, https://doi.org/10.4271/1999-01-2064.Also In
References
- Statistical Abstracts of The United States 1994
- Woodroof, J.G., The Culture of Peanuts, in Peanuts: Production, Processing, Products 3 1983 The AVI Publishing Co., Inc. West Port, CT 165 179
- Ahmed, E.M. Young, C.T. 1982 Composition, Quality and Flavor of Peanuts, in Science and Technology Pattee, H.E. Young, C.T. Yoakum, TX American Peanut Research and Education Society, Inc. 655 688
- Gennadios, A. Mc Hugh, T.H. Weller C.L. Krochta. J.M. 1994 Edible Coatings and Films to Improve Food Quality, Ch.9 Edible Films and Coatings Based on Proteins
- Mc Watters K.H. Cherry, J.P. 1982 Potential Food Uses of Peanut Seed Proteins, In Peanut Science and Technology Pattee, H.E. Young, C.T. Yoakum, TX American Peanut Research and Education Society, Inc. 689 736
- Gennadios, A. Mc Hugh, T.H. Weller C.L. Krochta. J.M. 1994 Edible Coatings and Films to Improve Food Quality, Ch.9 Edible Films and Coatings Based on Proteins 201 225 Technomic Publishing Co. Inc. Lancaster, PA
- Andres, C. 1984 Food Processing 43 13 48 49
- Gontard, N. Guilbert S. Cuq. J. 1993 J. Food Sci. 58 1 206 211
- Mc Hugh, T.H. Krochta. J.M. 1994 J. Agric. Food Chem. 42 4 841 845
- Gennadios, A. Weller, C.L. Hanna M.A. Froning. G.W. 1996 J. Food Sci. 61 3
- Wu, L.C. Bates, R.P. 1973 Influence of Ingredients Upon Edible Protein-Lipid Film Characteristics J. Food Science 38 783 787
- Aydt, T.P. Weller C.L. Testin. R.F. 1991 Trans. Am. Society Agri. Eng. 34 1 207 211
- Marshall, L. Fishman, R. Friedman, B. Huang, S. J. Polymers From Agricultural Co-products
- Smolinske, S.C. Handbook of Food, Drug, and Cosmetic Excipients CRC Press. 1992 Boca Raton, FL 439 523 524 674 676
- Solomons, T.W.G. Organic Chemistry Fourth Edition John Wiley and Sons, Inc 1988 New York 1117 1123
- Bailey, P.S. Jr. Bailey, C.A. 1989 Organic Chemistry A Brief Survey of Concepts and applications Fourth Edition Allyn and Bacon Boston 326
- English, J Jr. Cassidy. H.G. 1956 Priciples of Organic Chemistry Second Edition McGraw-Hill Book Company Inc. New York 221 370
- Ashworth, M. R. F. 1979 Analytical Methods for Glycerol Newman A Academic Press London, NY. 973
- Pinner, J.F. Jr. 1979 Glycerol Production by Yeast Extracts Auburn, AL 35
- Milton, J. 1997 Poly (ethylene glycol): Chemistry and Biological Applications American Chemistry Society Zalipsky S. Washington, DC. 653 695
- Schnepff, S. 1996 Personal Communication. Dept. of Nutritional Sciences and Dietetics Univ. of Nebraska Lincoln, NE.
- Patrick, N. Jones, G. Aglan, H., Lu, J.Y. 1998 The Development of an Edible Peanut Protein Film In NASA University Research Center Technical Report 3 489