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Rheology of magnetohydrodynamic viscoelastic fluid flow and heat transfer during the blade coating process with blade slip

Zaheer Abbas, Muhammad Asif Javed, Alia Hanif, MY Rafiq, Sabeeh Khaliq

2024Polymers and Polymer Composites11 citationsDOIOpen Access PDF

Abstract

Blade coating is a widely used technique for achieving smooth surfaces by applying a protective fluid layer from the blade onto the moving substrate. Under the blade coating phenomena, the impacts of MHD, velocity slip, and heat distribution of the third-grade fluid for both planar and exponential coaters are taken into discussion. Lubrication approximation theory is employed for solving nonlinear equations, while the numerical method known as the shooting technique is utilized to characterize pressure, pressure gradient, velocity, and heat distribution. Numerous parameters including the slip parameter, third-grade fluid, coating thickness, and MHD are numerically investigated to show the effect on fluid flow and shown in several graphs and tables. The results prove the viscoelastic nature of fluid along with MHD and viscous slip to be controlling parameters of pressure and blade load which lead to varying coating thickness, which may help in achieving improved substrate life and efficient coating process.

Topics & Concepts

Blade (archaeology)Magnetohydrodynamic driveMechanicsMaterials scienceViscoelasticitySlip (aerodynamics)RheologyHeat transferFluid dynamicsMechanical engineeringComposite materialThermodynamicsMagnetohydrodynamicsEngineeringPhysicsPlasmaQuantum mechanicsRheology and Fluid Dynamics StudiesNanofluid Flow and Heat TransferHeat Transfer Mechanisms
Rheology of magnetohydrodynamic viscoelastic fluid flow and heat transfer during the blade coating process with blade slip | Litcius