Modeling of an isothermal flow of a magnetohydrodynamic, viscoplastic fluid during forward roll coating process

AbstractThe ribbing instability of forward roll coating is analyzed numerically by linear stability theory. The velocity ratio of two rolls is fixed to be 1/4 for practical surface coating processes. The base flows through the gap between two rolls are solved by use of powerful CFD-RC software package. A numerical program is developed to solve the ribbing instability for the package is not capable of solving the eigenvalue problem of ribbing instability. The effects of the gap between two rolls, flow viscosity, surface tension and average roll velocity on ribbing are investigated. The criterion of ribbing instability is measured in terms of critical capillary number and critical wave number. The results show that the surface coating becomes stable as the gap increases or as the flow viscosity decreases and that the surface coating is more stable to the ribbing of a higher wave number than to the ribbing of a lower wave number. The effect of average roll velocity is not determinant to the ribbing instability. There are optimum and dangerous velocities for each setup of rolling process.

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Forward roll coating of Newtonian and non-Newtonian fluids with deformable rolls

10.1063/1.49472 ◽

1996 ◽

Author(s):

Olivier Cohu ◽

Albert Magnin

Keyword(s):

Newtonian Fluids ◽

Roll Coating ◽

Forward Roll Coating

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Crack Filling of Cover Glasses by Sol-Gel Coatings

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.797.700 ◽

2013 ◽

Vol 797 ◽

pp. 700-705 ◽

Cited By ~ 2

Author(s):

Kung Jeng Ma ◽

Hsi Hsin Chien ◽

Su Wei Huang ◽

Shi Chang Chen ◽

Choung Lii Chao

Keyword(s):

Sol Gel ◽

Smart Phone ◽

Processing Parameters ◽

Silica Sol ◽

Coating Process ◽

Cover Glass ◽

Roll Coating ◽

High Penetration ◽

Glass Plates ◽

Resistant Layer

Strengthening of glass sheets through the process of ion exchange have been widely used in thinner cover glass for smart phone. The compressive stress improves the ability of the glass surface to withstand damage from mechanical impact. However, the presence of the damage resistant layer makes conventional mechanical and laser cutting of the ion-exchanged glass difficult. Normally, the cutting process will lead to spontaneous glass sheet breakage or shattering. Even successful in some samples, the underlying central tension is exposed on the edge, and the mechanical strength and durability of this edge is degraded. The repair of edge cracks becomes an extremely important issue for the development of single glass based smart phone. The ion exchanged glass plates (Corning IOX-FS) with a thickness of 0.7 mm were selected as the substrate materials. After cutting ion exchanged glass by high penetration diamond scribing wheels, the edge of glass plates can be protected or strengthened with silica sol using roll coating process. It was observed that the strength could be improved achieving 210 % compared to the strength of uncoated glass sheets. The sol-gel coating could improve the strength of the glass mainly by the mechanisms of filling in edge flaws or blunting crack tips. The effects of silica sol and processing parameters of roll coating process on the cracks filling effects were investigated.

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Theoretical Study of the Reverse Roll Coating of Non-Isothermal Magnetohydrodynamics Viscoplastic Fluid

Coatings ◽

10.3390/coatings10100940 ◽

2020 ◽

Vol 10 (10) ◽

pp. 940

Author(s):

Fateh Ali ◽

Yanren Hou ◽

Muhammad Zahid ◽

Muhammad Afzal Rana

Keyword(s):

Theoretical Study ◽

Equations Of Motion ◽

Trapezoidal Rule ◽

Viscoplastic Fluid ◽

Lubrication Approximation ◽

Roll Coating ◽

Pressure Distributions ◽

Temperature Distributions ◽

False Position ◽

The Web

This article describes the development of a mathematical model of the reverse roll coating of a thin film for an incompressible non-isothermal magnetohydrodynamics (MHD) viscoplastic fluid as it passes through a small gap between two rolls rotating reversely. The equations of motion required for the fluid added to the web are constructed and simplified using the lubrication approximation theory (LAT). Analytical results are obtained for the velocity profile, pressure gradient, and temperature distribution. The pressure distributions and flow rate are calculated numerically using the trapezoidal rule and regular false position method, respectively. Some of these results are presented graphically, while others are shown in a tabular form. From the present analysis, it has been observed that the magnitude of pressure distributions increases by increasing the value of the involved parameters. It is worth mentioning that the velocities ratio and Brickman’s number are controlling parameters for the temperature distributions. The results indicate the strong effectiveness of the viscoplastic parameter and velocities ratio for the velocity and pressure distributions. It is also concluded that the coating of Casson material has been remarkably affected by the magnetohydrodynamics effects.

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