S. Livings scite author profile

Commercial wheat, corn and rice starch were extrusion cooked under a specific mechanical energy input (SME) ranging from 81 to 365 Wh/kg (288 to 1314 kJ/kg). Extrusion cooking at low and high SME resulted in products having significant differences in molecular weight distribution and having crystalline structures of the V-and E-type, as determined by gel permeation chromatography and X-ray diffraction analysis. Differential scanning calorimetry revealed that the glass transition temperature (T g ) of the extruded starches was independent of the botanical source, the degree of extrusion-induced molecular fragmentation and the formation of the V-and E-type crystalline structures. The obtained master curve, defined by the relationship between water content and T g of the amorphous starch, may be used as a predictive tool in modelling the extrusion process of starch or starch containing blends, especially with regard to the formation of the morphological structure and texture attributes of directly expanded products.

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Effect of mixing and viscosity on rehydration of dry food particulates

Marabi

Jacobson

Livings

et al. 2004

European Food Research and Technology

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Physical ageing of wheat flour-based confectionery wafers

Livings

Breach

Donald

et al. 1997

Carbohydrate Polymers

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S. Livings

Normalized Weibull distribution for modeling rehydration of food particulates

Glass Transition of Extruded Wheat, Corn and Rice Starch

Effect of mixing and viscosity on rehydration of dry food particulates

Physical ageing of wheat flour-based confectionery wafers

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