Mathematical Modelling of Ree-Eyring Nanofluid Using Koo-Kleinstreuer and Cattaneo-Christov Models on Chemically Reactive AA7072-AA7075 Alloys over a Magnetic Dipole Stretching Surface

In the current study, since nanofluids have a high thermal resistance, and because non-Newtonian (Ree-Eyring) fluid movement on stretching sheet by means of suspended nanoparticles AA7072-AA7075 is used, proposed mathematical model takes into account influence magnetic dipoles Koo-Kleinstreuer model. The Cattaneo-Christov used to calculate heat transfer in two-dimensional flow Ree-Eyring nanofluid across sheet, viscous dissipation taken account. base liquid water with considered this study. PDEs are converted ODEs exhausting similarity transformations. numerical solution altered equations then performed utilising HAM. To examine performance velocity, temperature profiles, concentration skin friction, Nusselt number, Sherwood graphical analysis carried out for various parameters. new model’s key conclusions that AA7075 alloy outperforms AA7072 terms as volume fraction ferro-magnetic interaction constraint rise. Additionally, rate transmission friction coefficient improve rises.