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Dynamic mechanical analysis as a complementary technique for stickiness determination in model whey protein powders

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journal contribution
posted on 2020-09-23, 08:58 authored by Laura T. O'Donoghue, Kamrul Haque, Sean A. Hogan, Fathima R. Laffir, James A. O'Mahony, Eoin G. Murphy
The α-relaxation temperatures (Tα), derived from the storage and loss moduli using dynamic mechanical analysis (DMA), were compared to methods for stickiness and glass transition determination for a selection of model whey protein concentrate(WPC) powders with varying protein contents. Glass transition temperatures (Tg) were determined using differential scanning calorimetry (DSC), and stickiness behavior was characterized using a fluidization technique. For the lower protein powders (WPC 20 and 35), the mechanical Tα determined from the storage modulus of the DMA (Tα onset) were in good agreement with the fluidization results, whereas for higher protein powders (WPC 50 and 65), the fluidization results compared better to the loss modulus results of the DMA (Tα peak). This study demonstrates that DMA has the potential to be a useful technique to complement stickiness characterization of dairy powders by providing an increased understanding of the mechanisms of stickiness.

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Publication

Foods;9, 1295

Publisher

MDPI

Note

peer-reviewed

Other Funding information

EI

Language

English

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