Dynamic Rheological and Thermal Properties of Soft Wheat Flour Dough Containing Structured Lipid
Kingsley K. Agyare, Youling L. Xiong, K. Addo, Casimir C. Akoh
Journal of Food Science
Abstract
ABSTRACT: The effect of substituting canola oil/caprylic acid structured lipid for shortening (at 0%, 25%, 50%, 75%, and 100% levels) on the viscoelastic and thermal properties of soft wheat flour dough (28.4% total lipid, 43% moisture) was determined using dynamic rheological and differential scanning calorimetry tests. Ambient frequency scans produced higher G″ (loss modulus) and G′ (storage modulus) values at increasing frequencies. Temperature scans revealed rapid G″ and G′ increases for dough heated to above 56 °C, apparently because of starch gelatinization. Three differential scanning calorimetry endothermic peaks were observed at 54 °C, 69 °C, and 93 °C, which were attributed to shortening transition and gelatinization of starch granules.
Extracted Claims
3 claims extracted from this paper into the knowledge graph
canola oil/caprylic acid structured lipid affects viscoelastic and thermal properties
“The effect of substituting canola oil/caprylic acid structured lipid for shortening (at 0%, 25%, 50%, 75%, and 100% levels) on the viscoelastic and thermal properties of soft wheat flour dough (28.4% ...”
differential scanning calorimetry observes endothermic peaks
“Three differential scanning calorimetry endothermic peaks were observed at 54 °C, 69 °C, and 93 °C, which were attributed to shortening transition and gelatinization of starch granules.”
temperature increases G″ and G′
“Temperature scans revealed rapid G″ and G′ increases for dough heated to above 56 °C, apparently because of starch gelatinization.”