Thermomechanical transitions of meat-analog based fried foods batter coating.

This study aimed to characterize the thermomechanical transitions of meat-analog (MA) based coated fried foods. Wheat and rice flour-based batters were used to coat the MA and fried at 180 °C in canola oil for 2, 4 and 6 min. Glass-transition-temperature (Tg) of the coatings were assessed by differential scanning calorimetry, directly after frying or after post-fry holding. Mechanical texture analyzer and X-ray microtomography were employed to assess textural attributes and internal microstructure, respectively. Batter-formulation substantially impacted the Tg of fried foods coating i.e., crust. Tg of fried foods crust were ranged between −20 °C to −24 °C. Tg was positively correlated with frying time and internal microporosity (%), whereas negatively correlated with moisture content. Internal microstructure greatly influenced the textural attributes (hardness, brittleness, crispiness). Post-fry textural stability considerably impacted by Tg. Negative Tg value explains post-fry textural changes (hard-to-soft, brittle-to-ductile, crispy-to-soggy) of MA-based coated products at room-temperature (25 °C) and under IR-heating (65 °C). • Formulations and frying time regulates glass-transition-temperature (Tg) of batter coated products. • Lower Tg value was observed for high-moisture containing fried products. • Moisture and fat both acts as plasticizer in meat-analog based batter coated fried product. • Internal microstructure greatly impacts the Tg of coated fried products. • Texture of fried products changes at a temperature higher than their intrinsic Tg. [ABSTRACT FROM AUTHOR]