Abstract
AbstractThe glass transition temperature (Tg) and structure collapse (volumetric shrinkage) of a freeze‐dried fish protein hydrolyzate (HFP) were studied. An increase in the water activity from 0 to 0.64 reduced the Tg of HFP from 79.1 to −42.8 °C. The Gordon—Taylor equation was a good predictor for the plasticizing effect of water on Tg. At room temperature (19 °C), collapse was initiated at aw = 0.44 corresponding to a T — Tg value of 35.8 °C, and browning was evident above aw = 0.55. Above these critical values several structural changes occurred: shrinkage, collapse, browning, and setting into a sticky, high‐viscosity brown liquid. The viscosity of the matrix at the onset of collapse was 105–107 Pa·s, as estimated using the Williams—Landel—Ferry equation.
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