Mixed convective flow of Casson and Oldroyd-B fluids through a stratified stretching sheet with nonlinear thermal radiation and chemical reaction

Non-Newtonian fluids flow with mixed convection has got the researcher’s attention due to its widespread application in engineering and manufacturing systems. Furthermore, thermal radiation convective transmission plays a key role regulating transmission. That’s why authors’ interest comes point present detailed analysis of Casson Oldroyd-B through linearly stratified stretching sheet. Also, are considered as chemically reactive, thermally radiative, magnetized by strong magnetic field. The mathematical model is presented PDEs (partial differential equations) format which transformed into ODEs (ordinary employing suitable variables. treated an analytical technique called HAM (Homotopy method) provides solution for both linear nonlinear equations. Through use diagrams, converging exploration depicted. An interesting result been introduced that, streamlines liquid highly affected field compared liquid. buoyancy ratio parameter moderate velocity profile, while opposite trend found motion using convectional factors. Additionally, impacts parameters greater fluid associated On other hand, stronger equated fluid. results have great agreement previously published results.