Nanofluids behave like non-Newtonian fluids in many cases and, therefore, studying their
symmetrical behavior is of paramount importance in nanofluid heat transfer modeling. This …

In this paper, a mathematical analysis for three-dimensional Eyring–Powell nanofluid
nonlinear thermal radiation with modified heat plus mass fluxes is investigated. To enhance …

The paper presents the flow of mixed convection boundary layer for Eyring–Powell hybrid
nanofluid over a perpendicular plate with changeable temperature and velocity profile. The …

In this paper, has been investigated the heat and mass transfer in an unsteady two-
dimensional squeezing flow of magnetohydromagnetic (MHD) radiative non-Newtonian …

The aim of this paper is to explore the effect of heat source/sink, and space-and temperature-
dependent viscous and Joule dissipation on 3D magnetohydrodynamic radiating Eyring …

It is well known that the significance of dynamic viscosity and thermal conductivity cannot be
overemphasized in the movement of any fluid. In the present investigation, the impact of …

The study of electrically conducting Eyring-Powell fluid flow across a rotating surface has
practical applications in the exploitation of liquid metals, manufacturing of ship propellant …

In this manuscript, a computational paradigm of technique shooting is exploited for
investigation of the three‐dimensional Eyring‐Powell fluid with activation energy over a …

Abstract Background: Applications of Eyring-Powell fluid is found in paint industries,
pharmaceutical companies and armour construction. Eyring-Powell fluid models are able to …

The present analysis deals with an unsteady magnetohydrodynamic flow of Eyring-Powell
nanofluid over an inclined permeable stretching sheet. Effects of thermal radiation, Joule …