The characteristics of tangent hyperbolic fluid flow in the presence of both thermal radiation and thermal stratification effects are not discussed until now especially by way of an inclined cylindrical surface. Therefore, an endeavour as a comparative study is reported to offered numerical solution for tangent hyperbolic fluid model towards both cylindrical and flat stretching surfaces. The physical situation which also includes the noteworthy effects namely, stagnation point region, mixed convection, magnetic field individualities and heat generation is translated in terms of partial differential equations and for solution purpose a computational algorithm is executed. The obtained results are provided by way of both graphical and tabular outcomes. It is observed that the temperature profile is an increasing function of thermal radiation parameter but opposite trends are noticed for positive values of thermal stratification parameter. In addition, straight line approximation is accomplished to scrutinize the impact of mixed convection and an inclination effects on skin friction coefficient while the impact of thermal radiation and thermal stratification parameters are provided on heat transfer rate.