Relationship between RVA Properties and Film Physical Properties of Native Corn Starch and Hydroxypropylated Corn Starch
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Han, Youn-Jeong
(Department of Food Science and Nutrition, The Catholic University of Korea)
Kim, Suk-Shin (Department of Food Science and Nutrition, The Catholic University of Korea) |
| 1 | Whistler, R.L. Method in Carbohydrate Chemistry, pp. 3-5, Academic Press. Inc., New York, USA (1964) |
| 2 | Bae, S.O. and Lim, S.T. Physical properties of extruded strands of hydroxypropylated normal and high-amylose corn starch. Cereal Chem. 75: 449-454 (1998) DOI ScienceOn |
| 3 | Choi, Y.J., Lim, S.T. and Im, S.S. Preparation of hydroxypdopylrd corn starch at high degrees of substitution in aqueous, alcohol and pasting properties of the starch. Food Sci. Biotechnol. 6: 1118-121(1997) |
| 4 | ASTM, Standard Test Methods for Water Vapor Transmission of Materials. Annual Book of ASTM Standards Destination E96-80 (1989) |
| 5 | Krochta, J. M. and Mulder-Johnston, C.D. Edible and biodegradable polymer films challenges and opportunities. Food Technol. 51:61-74(1997) |
| 6 | Lieberman, E.R. and Gilbert, S.G. Gas permeation of collagen films as affected by cross-linkage, moisture, and plasticizer content. J. Polymer Sci. 41: 33-43 (1973) |
| 7 | Gennadios, A., Weller, C.L. and Testin, R.F. Property modiScation of edible wheat, gluten-based film. Trans. ASAE 35: 465 470 (1993) |
| 8 | Trezza, T.A. and Vergano, P.J. Grease resistance of corn zein coated paper. J. Food Sci. 59: 912-915 (1994) DOI ScienceOn |
| 9 | Guilbert, S. and Biquet, B. Food Packaging Technology. Edible Films and Food Packaging Technology. Vol. 1, pp. 315-316,VCH, USA (1996) |
| 10 | Lloyd, N.E. and Kirst, L.C. Some factors affecting the tensile strength of starch films. Cereal Chem. 40: 154-161 (1963) |
| 11 | Stahl, H. and McNaught, R.P. A Rapid nuclear magnetic reso-nance method for determining hydroxypropyl group modified starch. Cereal Chem. 47: 345-350 (1970) |
| 12 | Gennadios, A., Weller, C.L. and Gooding, C.H. Measurement errors in water vapor permeability of highly permeable, hydro-philic edible films. J. Food Eng. 21: 395-409 (1994) DOI ScienceOn |
| 13 | Donhowe, I.G. and Fennema, O. The effects of plasticizers on crystalinity, Permeability, and mechanical properties of methylcellulose films. J. Food Proc. Preserv. 17: 247-257 (1993) DOI ScienceOn |
| 14 | Song, J.C. and Park, H.J. Food Additives, pp. 283-291. Nae Ha Publishing Co., Seoul (1998) |
| 15 | Whistler, R.L., Bemiller, J.N. and Paschall, E.F. Starch Chemistry and Technology (2nd ed), pp. 229-230, Academic Press, New York, USA (1984) |
| 16 | Johnson, D.P. Spectrophotomethc determination of the hydroxypropyl group in starch ether. Anal Chem. 41: 859-560 (1969) DOI |
| 17 | Mark, A.M., Roth, W.B., Mehltreter, C.L. and Rist, C.E. Oxygen permeability of amylomaize starch films. Food Technol. 20: 75-77(1966) |
| 18 | Han, Y.J. Relationship between RVA properties and film properties of native corn starch and hydroxypropylated corn starch. MS thesis, The Catholic University of Korea, Seoul (2000) |
| 19 | Cuq, B., Gontard, N., Cuq, J.L. and Guilbert, S. Selectes functional properties of fish myofibrillar protein-based films as affected by hydrophilic plasticizers. J. Agric. Food Chem. 45: 622-626 (1997) DOI ScienceOn |
| 20 | Roth, W.B. and Mehltretter, C.L. Some properties of hydropropy-lated amylomaize starch films. Food Technol. 21: 72-74 (1967) |
| 21 | Cherian, G., Gennadios, A., Weller, C. and Chinachofi, P. Thermomechanical behavior of wheat gluten films effect of sucrose, glycerin, and sorbitol. Cereal Chem. 72: 1-6 (1995) |
| 22 | Rankin, J.C., Wolff, I.A., Daris, H.A. and Rist, C.E. Permeability of amylose film to moisture vapor; Selected organic vapors, and the common gases. Ind. Eng. Chem. 3: 120-123 (1958) |
| 23 | Park, H.J., Rhim, J.W., Jung, S.T., Kang, S.G., Hwang, K.T. and Park, Y.K. Mechanical properties of carrageenan-based biopoly-mer films. J. KOPAST 1: 38-50 (1995) |
| 24 | ASTM, Annual Book of ASTM Standards, American Society for Testing and Materials, Philadelphia, PA, USA (1989) |
| 25 | Luallen, T.E. Starch as a functional ingredient. Food Technol. 39:59-63 (1985) |
| 26 | Kester, J.J. and Fennema, O.R. Edible films and coating. A Review. Food Technol. 43: 47-59 (1989) |
| 27 | Yook, C., Pek, U.H. and Park, K.H. Physicochemical properties of hydroxypropylated corn starches. Korean J. Food Sci. Technol. 23: 175-182(1991) |
| 28 | Wurzburg, O.B. Modified Starches Properties and Uses, pp. 15, 90-95, CRC Press. Inc., USA(1986) |
| 29 | Wootton, M. and Manatsathit, A. The influence of molar substitu tion on the water binding capacity of hydropropyl maize starches. Starch 35: 92-94 (1983) DOI |
| 30 | Rhim, J.W., Wu, Y., Weller, C.L. and Schnepf, M. Physical characteristics of a composite film of soy protein isolate and propyleneglycol alginate. J. Food Sci. 64: 149-152 (1999) DOI ScienceOn |
| 31 | Bader, H.G. and Goritz, D. Investigations on high amylose corn starch films. Part 3 Stress strain behaviour. Starch 46: 436-439 (1994) |
| 32 | McHugh, T.H. and Krochta, J.M. Sorbitol-vs glycerol-plasticized whey protein edible films integrated oxygen permeability and tensile property evaluation. J. Agric. Food Chem. 42: 841-845(1994) DOI ScienceOn |
| 33 | Kester, J.J. and Fennema, O.R. Edible films and coating. A Review. Food Technol. 43: 47-59 (1989) |
| 34 | Gontard, N., Guilbrt, S. and Cuq, J.L. Water and glycerol as plasticizers affect mechanical and water vapor barrier properties of an edible wheat gluten film. J. Food Sci. 58: 206-211 (1993) DOI ScienceOn |
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