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Article Dans Une Revue Journal of Food Engineering Année : 2017

Microstructure evolution of micellar casein powder upon ageing: Consequences on rehydration dynamics

Résumé

Micellar casein (MC) powder must be completely dispersed and dissolved in water to fully exhibit their functional properties. However, the rehydration properties of these powders decline strongly during storage, leading to loss of solubility and longer rehydration time. In this work, controlled ageing was applied to a MC powder in order to better understand the mechanisms responsible for the deterioration of rehydration properties in the course of storage. The objective was to investigate evolutions of powder surface structure and composition as well as the link between these changes and the decline in rehydration properties, which were evaluated through characteristic times of different steps constituting the full rehydration process. Lipid migration (towards the particle surface) and increase of interactions between surface micellar particles during storage were proven to be responsible for major changes in different rehydration stages. First, the delay in water penetration into particles was quantified; then, the increase of particle fragmentation time was determined and finally, an extended total rehydration time was evidenced. Analysis of the characteristic times of different rehydration stages shows unambiguously that the main step increasing the total rehydration time of aged powder is not lipid migration but the crosslink formation during storage, which can thus be considered as the rate-limiting stage for rehydration of aged powder.
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Dates et versions

hal-01506665 , version 1 (12-04-2017)

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Paternité - Partage selon les Conditions Initiales

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Sarah Nasser, Romain Jeantet, Paulo Peres de Sa Peixoto Junior, Gilles Ronse, Nicolas Nuns, et al.. Microstructure evolution of micellar casein powder upon ageing: Consequences on rehydration dynamics. Journal of Food Engineering, 2017, 206, pp.57-66. ⟨10.1016/j.jfoodeng.2017.03.004⟩. ⟨hal-01506665⟩
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