This study aims to elucidate Nano fluid Maxwell non-Newtonian slip flow phenomenon caused by a stretched sheet implanted with an abrasive surface and sensitive to chemical and magnetic processes. The energy equation is used to investigate of thermophoresis and Brownian motion's influence. The fundamental flow controlling equations can be converted into a dimensionless for mutilising similarity transformation. The Runge-Kutta method and firing strategy have been utilised to quantitatively solve these dimensionless issues. The primary goals of the current study are to investigate important variables that are included in the governing equations and their visual effects on distributions of temperature concentrations, and velocity. A graphic demonstrates the consistency of the most recent findings. Additionally provided The significance of the Coefficients of Skin-Friction, Nusselt number, and Sherwood number are shown in a table. The scope of the current inquiry findings as well as the published benchmark, which illustrates a unique circumstance, are in good agreement.

Maxwell fluid; Nanofluid; MHD; Porous medium; Double diffusion; Chemical reaction; Stretching sheet;