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KMID : 0380620080400020184
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Korean Journal of Food Science and Technology
2008 Volume.40 No. 2 p.184 ~ p.189
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Engineering/Processing/Sensory Evaluation : Rheological Properties of Sweet Potato Starch-sucrose Composite
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Cho Sun-A
Yoo Byoung-Seung
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Abstract
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Effects of sucrose at different concentrations (0, 10, 20, and 30%, w/w) on steady and dynamic shear rheological properties of sweet potato starch (SPS) paste (5%, w/w) were investigated. The steady shear rheological properties of SPS-sucrose composites were determined from rheological parameters based on power law and Casson flow models. At 25¡É all the samples showed pseudoplastic and thixoropic behavior with high yield stress. Consistence index (K), apparent viscosity (¥ça,100), and yield stress (¥òoc) values of SPS-sucrose composites decreased with increasing sucrose concentration from 10% to 30%. The decrease of swelling power was observed at higher sucrose concentration (>20%) and the low swelling power yielded a lower K, ¥ça,100, and ¥òoc values. In temperature range of 25-70¡É, Arrhenius equation adequately assessed variation with temperature. Oscillatory test data showed weak gel-like behavior. Magnitudes of storage (G``) and loss (G") moduli increased with an increase in sucrose concentration and frequency. The SPS-sucrose composite at 30% concentration closely followed the Cox-Merz superposition rule.
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KEYWORD
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sweet potato starch, rheology, sucrose, storage modulus, Cox-Merz rule
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