Numerical analysis of the forward roll coating of a Rabinowitsch fluid

M. Zahid; M. Zafar; M. A. Rana; M. T.A. Rana; M. S. Lodhi

doi:10.1177/8756087919887216

Numerical analysis of the forward roll coating of a Rabinowitsch fluid

M. Zahid
, M. Zafar
, M. A. Rana
, M. T.A. Rana
, M. S. Lodhi

COMSATS University Islamabad
Riphah International University
Charles Sturt University

Research output: Contribution to journal › Review article › peer-review

14 Scopus citations

Abstract

This paper analyses an isothermal roll coating for a Rabinowitsch fluid. Equations of motion are simplified using lubrication approximation theory. Analytical solutions of velocity, flow rate and pressure-gradient are calculated. Outcomes of coating thickness, pressure distribution, split position, stresses, forces, the power input to the roller and the temperature rise between the coating rollers and substrate are obtained. The effects of some involved parameters are displayed through graphs and tables. It is noted that the Rabinowitsch parameter is a controlling quantity for coating thickness, flow rate, separation point, separation force, pressure distribution, and power input. Moreover, an exponential and monotonic change in the above-mentioned engineering parameters is a function of the Rabinowitsch fluid parameter.

Original language	English
Pages (from-to)	191-208
Number of pages	18
Journal	Journal of Plastic Film and Sheeting
Volume	36
Issue number	2
DOIs	https://doi.org/10.1177/8756087919887216
State	Published - 1 Apr 2020
Externally published	Yes

Keywords

Lubrication approximation theory
Rabinowitsch fluid
exact solutions
numerical procedures
roll coating

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10.1177/8756087919887216

Cite this

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title = "Numerical analysis of the forward roll coating of a Rabinowitsch fluid",

abstract = "This paper analyses an isothermal roll coating for a Rabinowitsch fluid. Equations of motion are simplified using lubrication approximation theory. Analytical solutions of velocity, flow rate and pressure-gradient are calculated. Outcomes of coating thickness, pressure distribution, split position, stresses, forces, the power input to the roller and the temperature rise between the coating rollers and substrate are obtained. The effects of some involved parameters are displayed through graphs and tables. It is noted that the Rabinowitsch parameter is a controlling quantity for coating thickness, flow rate, separation point, separation force, pressure distribution, and power input. Moreover, an exponential and monotonic change in the above-mentioned engineering parameters is a function of the Rabinowitsch fluid parameter.",

keywords = "Lubrication approximation theory, Rabinowitsch fluid, exact solutions, numerical procedures, roll coating",

author = "M. Zahid and M. Zafar and Rana, \{M. A.\} and Rana, \{M. T.A.\} and Lodhi, \{M. S.\}",

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TY - JOUR

T1 - Numerical analysis of the forward roll coating of a Rabinowitsch fluid

AU - Zahid, M.

AU - Zafar, M.

AU - Rana, M. A.

AU - Rana, M. T.A.

AU - Lodhi, M. S.

N1 - Publisher Copyright: © The Author(s) 2019.

PY - 2020/4/1

Y1 - 2020/4/1

N2 - This paper analyses an isothermal roll coating for a Rabinowitsch fluid. Equations of motion are simplified using lubrication approximation theory. Analytical solutions of velocity, flow rate and pressure-gradient are calculated. Outcomes of coating thickness, pressure distribution, split position, stresses, forces, the power input to the roller and the temperature rise between the coating rollers and substrate are obtained. The effects of some involved parameters are displayed through graphs and tables. It is noted that the Rabinowitsch parameter is a controlling quantity for coating thickness, flow rate, separation point, separation force, pressure distribution, and power input. Moreover, an exponential and monotonic change in the above-mentioned engineering parameters is a function of the Rabinowitsch fluid parameter.

AB - This paper analyses an isothermal roll coating for a Rabinowitsch fluid. Equations of motion are simplified using lubrication approximation theory. Analytical solutions of velocity, flow rate and pressure-gradient are calculated. Outcomes of coating thickness, pressure distribution, split position, stresses, forces, the power input to the roller and the temperature rise between the coating rollers and substrate are obtained. The effects of some involved parameters are displayed through graphs and tables. It is noted that the Rabinowitsch parameter is a controlling quantity for coating thickness, flow rate, separation point, separation force, pressure distribution, and power input. Moreover, an exponential and monotonic change in the above-mentioned engineering parameters is a function of the Rabinowitsch fluid parameter.

KW - Lubrication approximation theory

KW - Rabinowitsch fluid

KW - exact solutions

KW - numerical procedures

KW - roll coating

UR - https://www.scopus.com/pages/publications/85074887020

U2 - 10.1177/8756087919887216

DO - 10.1177/8756087919887216

M3 - Review article

AN - SCOPUS:85074887020

SN - 8756-0879

VL - 36

SP - 191

EP - 208

JO - Journal of Plastic Film and Sheeting

JF - Journal of Plastic Film and Sheeting

IS - 2

ER -

Numerical analysis of the forward roll coating of a Rabinowitsch fluid

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Keywords

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