Recent Trends in Coatings and Thin Film–Modeling and Application

© 2022 by the authors; CC BY-NC-ND license

Synovial fluid; coating; shear-thinning and -thickening models; mass transport; asymmetric channel; analytical solution; thin film; spin coating; rotating disk; nanoparticles; Newtonian fluids; coatings; curved stretched surface; nanoliquid; nonlinear thermal radiation; entropy generation; Reiner-Phillipoff fluid; thin film; time-dependent; thermal radiation; homotopy analysis method (HAM); thin film of micropolar fluid; porous medium; thermophoresis; thermal radiation; skin friction; Nusselt number and Sherwood number; variable thickness of the liquid film; HAM; optical fiber coating; double-layer coating; viscoelastic PTT fluid; analytic and numerical simulations; thin film casson nanofluid; SWCNTs and MWCNTs; stretching cylinder; MHD; HAM; unsteady flow and heat transfer; nanofluid; Blasius–Rayleigh–Stokes variable; dual solutions; numerical solution; correlation expressions; Casson fluid; rotating disk; condensation film; heat generation/consumption; thermal radiation; HAM; thin liquid film flow; carbon nanotubes; Cattaneo-Christov heat flux; variable heat source/sink; entropy generation; heated bi-phase flow; couple stress fluid; lubrication effects; slippery walls; magnetohydrodynamics; Darcy-Forchheimer nanofluid; nonlinear extending disc; variable thin layer; HAM and numerical method; peristaltic flow; an endoscope; variable viscosity; Adomian solutions; different wave forms; pseudo-similarity variable; micropolar nanofluid; darcy forchheimer model; MHD flow; triple solution; stability analysis; APCM; Caputo derivative; dual solutions; unsteady flow; MHD; shrinking surface; nanofluid; Williamson model; peristaltic pumping; convective boundary conditions; asymmetric channel; analytic solutions; coatings; second order slip; double stratification; Cattaneo–Christov heat flux; variable thermal conductivity; Williamson nanofluid; velocity second slip; wave forms; peristaltic flow; exact solutions; magnetic field; heat and mass transfer; coatings; Hall current; Catttaneo-Christov heat flux; carbon nanotubes; homogeneous–heterogeneous reactions; viscoelastic fluids; nanoparticles; magnetohydrodynamics; heterogeneous–homogeneous reactions; numerical solution; rotating disk; mixed convective flow; MHD; binary chemical reaction; nanoparticles; arrhenius activation energy; gas-liquid coatings; bubbles; two-fluid model; peristaltic flow; phase distribution; HPM; double diffusion; nanofluid; curved channel; peristaltic pumping; compliant walls; analytical solutions; third grade fluid model; hybrid nanofluid; induced magnetic field; mixed convection; heat generation; peristalsis; cilia beating; Non-Newtonian; entropy generation; Bejan number; nanoparticles; Jeffrey fluid model; peristaltic flow; analytical solutions; eccentric annuli; droplet impact modelling; impedance analysis; rain erosion; ultrasound measurements; viscoelastic modelling; wind turbine blades; computational modelling; impedance analysis; rain erosion testing; ultrasound measurements; viscoelastic characterization; wind turbine blades; development and characterization of coatings; applications of thin films; nanostructured materials; surfaces and interfaces; applications of multiphase fluids; mathematical modeling on biological applications; electronics; magnetics and magneto-optics; droplet impact modelling; impedance analysis; rain erosion; ultrasound measurements; viscoelastic modelling; wind turbine blades; computational modelling