Particle surface design for enhanced reconstitution of fat-based food powders.

Spray-dried milk powders are characterized by an underrepresentation of hydrophilic compounds on the particle surface compared to the bulk, which renders reconstitution unfavourable. To overcome this issue, in the present study we instigated the coating of whole milk powder with two types of micronized lactose: crystalline and amorphous. We demonstrate that deposition of micronized lactose on the surface of whole milk powder leads to an increase in the reconstitution rate at 21 °C, correlated with a decrease in the apparent contact angle of the material. We also show that the physical solid state of micronized lactose is an important factor influencing the reconstitution performance of coated whole milk powder; If micronized lactose is amorphous, increasing the coating concentration beyond a certain point has little or no further effect on the reconstitution kinetics, which could be explained by viscosity build-up effects that hamper capillary penetration and sinking. [Display omitted] • Dry coating of whole milk powder with micronized lactose (crystalline/amorphous) • Enhancement of powder wettability and reconstitution at 21 °C • Powder sinking is influenced by the physical solid state of the coating material [ABSTRACT FROM AUTHOR]