The present article emphasizes the bearing of radiative heat flux, Joule heating on the 3D magneto-flow of tangent hyperbolic mixed nanoliquid above a linear/nonlinear expandable surface. The aluminum alloy nanoparticles AA7072 and AA7075 are suspended in methanol liquid to obtain a hybrid nanofluid. The nonlinear partial differential equations are renovated to ordinary differential equations by utilizing appropriate similarity conversions, and further, the solutions are attained via the bvp5c MATLAB package. The novelty of this research is to supply simultaneous outcomes of the radiative hydrodynamic flow along linear and nonlinear extending surface situations. Further, the stimulus of sundry factors on the flow features is reflected with the aid of plots. The thermal transport rate in the nonlinear extending case is twice greater than the linear stretching case under the action of nanoparticles. Also, the existence of unique nanoparticles performs a substantial response in boosting the thermal transport mechanism of the non-Newtonian liquid.