Characterization of crispness of French fries by fracture and acoustic measurements, effect of pre-frying and final frying times

The influence of pre-frying and final frying time on the crispness of French fries was evaluated by simultaneous analysis of the fracture and acoustic properties during instrumental simulation of human chewing. The analysis of the frequency distribution of the force and sound events corresponding to the crust of the French fry reflected an effect of both pre-frying and final frying time on instrumental crispness. Up to 60 s pre-frying, an increase in the number and magnitude of force and sound events was found, which reflect an increase in crispness. The increase in final frying time increased crispness, but it cannot counterbalance a lack of pre-frying. The moisture content of the whole French fries cannot explained the effect of pre-frying on crispness. Conversely, the effect of pre-frying can be explained when considering only the moisture content of the crust. Pre-frying may allow an easier loss of water from the crust during final frying, which will enhance its crispness

Performance of cellulose derivates in deep-fried battered snacks: Oil barrier and crispy properties

The performance of batters containing cellulose derivatives (methylcellulose(A4M), three hydroxypropylmethyl celluloses (E4M, F4M and K4M) with different degree of hydroxypropyl and/or methyl substitution and carboxymethyl cellulose (CMC)) to produce crispy deep-fried snacks crusts was studied by using a deep-fried crust model. Their performance was compared in terms of their ability to retain moisture content, to decrease oil content and the effect on crispness. Thermogelation properties of the cellulose derivatives depended on the type and degree of substitution. All increased the water content and decreased the oil content of the deep-fried crusts, except for CMC, which does not thermogelate and did not increase the amount of water retained in the crust, although a decrease in the oil content was found. The highest oil reduction and the lowest water retention were found for the cellulose with the lowest level of methyl substitution (K4M). The sound emitted during fracture of K4M crusts had higher intensity than the other cellulose derivatives indicating a crispier crus