2011
DOI: 10.1016/j.jcis.2010.11.052
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Physico-chemical mechanisms governing the adherence of starch granules on materials with different hydrophobicities

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Cited by 17 publications
(15 citation statements)
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“…It may be explained by the lower contact angle (Figure 3a), in agreement with a study (Detry et al, 2011) of the adherence of starch granules on different substrates, including glass and polystyrene, using the same experimental approach as here (soiling with droplets of a starch suspension and drying, cleaning with the radial flow cell used in this work). A higher substrate wettability increases droplet spreading which leads to thinner aggregates and decreases the efficiency of shear forces exerted by the flowing water.…”
Section: Cleanabilitysupporting
confidence: 88%
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“…It may be explained by the lower contact angle (Figure 3a), in agreement with a study (Detry et al, 2011) of the adherence of starch granules on different substrates, including glass and polystyrene, using the same experimental approach as here (soiling with droplets of a starch suspension and drying, cleaning with the radial flow cell used in this work). A higher substrate wettability increases droplet spreading which leads to thinner aggregates and decreases the efficiency of shear forces exerted by the flowing water.…”
Section: Cleanabilitysupporting
confidence: 88%
“…In the study of the adherence of starch granules (Detry et al, 2011), SEM micrographs obtained with the in-lens detector showed that macromolecules or submicrometer size starch fragments were adsorbed from the liquid phase and, or carried by the liquid film retracting during drying, and were accumulated at the granule-substrate interface.…”
Section: Cleanabilitymentioning
confidence: 99%
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“…A study of starch granules adherence, after suspension spraying onto different substrates and drying, demonstrated that substrate wettability influenced the shape and compactness of the adhering aggregates, the efficiency of shear forces upon cleaning, and finally the adherence of soiling particles (Detry et al, 2011). Moreover, it was reported that the presence of macromolecules, mainly polysaccharides, which were adsorbed from the liquid phase or carried by the retracting water film and deposited at the granulesubstrate interface, acted as an adhesive joint, the properties of which seemed to be influenced by the detailed history of drying and subsequent exposure to humidity.…”
Section: Introductionmentioning
confidence: 99%