Abstract:
To explore the effects of crushing processes on the rheological properties and edible quality of minced meat, blunt cutting tool and sharp cutting tool on two devices of beating machine and chopping machine were used to prepare minced meat. The pH value, salt soluble protein content, protein secondary structure, particle size distribution, color, stability and cooking loss, water holding capacity, texture characteristics and microstructure of minced meat gel were investigated. The results showed that the four crushing processes had different degrees of muscle fiber fragmentation, resulting in different properties of the low-fat minced meat and the resulting gel. Compared with the beater, the low-fat minced meat treated by the chopper had a higher G′ value in the temperature scanning. The low-fat minced meat beaten with blunt knife had the lowest viscosity and showed poor stability in frequency scanning. The high intensity cutting action of the chopper resulted in a lower end temperature and smaller particle size of the broken low-fat minced meat, and higher water holding capacity of the low-fat minced meat gel. Compared with the other three processes, the blunt knife chopped low-fat minced meat had the highest redness value (15.95), pH value (6.66), salt-soluble protein content (77.05 mg/mL), relative content of
β-fold (43.71%), and the low-fat minced meat gel had the lowest cooking loss (17.48%), the highest hardness (4147.72 g), gumminess (2883.72), chewiness (2496.02 g), sensory scores, which may be attributed to the tighter microstructure of low-fat minced meat gel formed by this treatment with moderate muscle fragmentation. Therefore, the blunt chopping is suitable for the crushing production of low-fat minced meat, which can improve its salt-soluble protein content, relative content of
β-sheet, redness, water holding capacity and texture properties.