A model for deformable roll coating with negative gaps and incompressible compliant layers

Gostling, M. J.; Savage, M.; Young, Amber; Gaskell, Philip

doi:10.1017/s0022112003005068

Cited by 14 publications

(6 citation statements)

References 45 publications

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“…It is interesting to note also the variation in pressure and web shape near the downstream meniscus is similar to that found in the nip-region of a deformable twin roll coater, in which either or both is covered with a thin elastomer layer [23]. The order of the minimum web-to-roll gap is around one tenth of the cell opening length, K, corresponding to gaps of around 20µm for cell sizes typical of those used industrially.…”

Section: Resultssupporting

confidence: 65%

A two-scale model for discrete cell gravure roll coating

Hewson

Kapur

Gaskell

2011

Chemical Engineering Science

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A two-dimensional model for predicting the fluid pick-out and coated film thickness characteristics of a discrete-cell direct gravure roll coater operating in reverse mode is derived. A novel multi-scale approach is adopted for this purpose and the resulting equations solved numerically for inertia-less flow conditions. A system of stiff ordinary differential equations is found to be sufficient to capture the major gross flow features, while at the cell level the analysis is based on a finite element solution of the momentum and continuity equations. It represents the first such predictive model of its kind, with particular interest placed on the nature of both the pressure distribution and web-to-roll gap profile spanning the coating bead. The effect of key operating parameters, web-to-roll speed ratio, web-tension, wrap-angle, capillary number and cell-geometry, on the degree of fluid pick-out from gravure cells and the coated film thickness is explored. Although an idealised model, the trends observed show qualitative agreement with existing experimental data collected on a small scale gravure coating rig and point the way forward to the eventual formulation of a full three-dimensional predictive model of the process.

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Section: Resultssupporting

confidence: 65%

A two-scale model for discrete cell gravure roll coating

Hewson

Kapur

Gaskell

2011

Chemical Engineering Science

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“…Rolls with thicker coverings are effectively less 'stiff' and thus are susceptible to larger deformation, which helps delay ribbing to a higher roll speed. This deduction fits with theoretical observation, where the downstream meniscus locates further away from the roll nip for a thicker compliant layer (Gostling et al, 2003). Fig.…”

Section: Positive Gapssupporting

confidence: 90%

Coating with deformable rolls: An experimental investigation of the ribbing instability

Chong

Gaskell

Kapur

2007

Chemical Engineering Science

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“…For large deflections and incompressible compliant layers such as mucosa, Carvalho and Scriven (1995) and Gostling et al (2003) have proposed:…”

Section: Elastic Model Of the Mucosamentioning

confidence: 99%

A biomechanical model of swallowing for understanding the influence of saliva and food bolus viscosity on flavor release

Loubens

Magnin

Doyennette

et al. 2011

Journal of Theoretical Biology

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After swallowing a liquid or a semi-liquid food product, a thin film responsible for the dynamic profile of aroma release coats the pharyngeal mucosa. The objective of the present article was to understand and quantify physical mechanisms explaining pharyngeal mucosa coating. An elastohydrodynamic model of swallowing was developed for Newtonian liquids that focused on the most occluded region of the pharyngeal peristaltic wave. The model took lubrication by saliva film and mucosa deformability into account. Food bolus flow rate and generated load were predicted as functions of three dimensionless variables: the dimensionless saliva flow rate, the viscosity ratio between saliva and the food bolus, and the elasticity number. Considering physiological conditions, the results were applied to predict aroma release kinetics. Two sets of conditions were distinguished. The first one was obtained when the saliva film is thin, in which case food bolus viscosity has a strong impact on mucosa coating and on flavor release. More importantly, we demonstrated the existence of a second set of conditions. It was obtained when the saliva film is thick and the food bolus coating the mucosa is very diluted by saliva during the swallowing process and the impact of its viscosity on flavor release is weak. This last phenomenon explains physically in vivo observations for Newtonian food products found in the literature. Moreover, in this case, the predicted thickness of the mix of food bolus with saliva coating the mucosa is approximately of 20 μm; value in agreement with orders of magnitude found in the literature.

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A model for deformable roll coating with negative gaps and incompressible compliant layers

Cited by 14 publications

References 45 publications

A two-scale model for discrete cell gravure roll coating

A two-scale model for discrete cell gravure roll coating

Coating with deformable rolls: An experimental investigation of the ribbing instability

A biomechanical model of swallowing for understanding the influence of saliva and food bolus viscosity on flavor release

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