Molecular breakdown of corn starch by thermal and mechanical effects |
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Authors: | R. M. van den Einde C. Akkermans A. J. van der Goot R. M. Boom |
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Affiliation: | Department of Agrotechnology and Food Sciences, Food and Bioprocess Engineering Group, Wageningen University, P.O. Box 8129, 6700 EV, Wageningen, The Netherlands |
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Abstract: | The molecular weight reduction of corn starch at 30–43% moisture during thermal treatment at temperatures 90–160 °C and during well-defined thermomechanical treatment at temperatures 90–140 °C was investigated. Thermal treatment resulted, during the first 5 min in a decrease in molecular weight as measured by intrinsic viscosity, after which longer heating had no significant effect. Higher moisture contents and temperatures generally resulted in more breakdown, although the effect diminished at higher temperatures. The decrease in intrinsic viscosity during thermomechanical treatment at relatively low temperatures and moisture contents was shown to be only dependent on the maximal shear stress. At higher temperatures, thermomechanical breakdown could be split into a mechanical part depending on maximal shear stress and a thermal breakdown part, which was again time-dependent on the shorter time-scales only. Higher moisture content during thermomechanical treatment resulted in more thermal breakdown and lowered the shear stresses required for mechanical breakdown. Consequences for process design are discussed briefly. |
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Keywords: | Starch Macromolecular degradation Heat Shear Extrusion |
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