Impacts of Viscous Dissipation and Thermal Radiation on Rabinowitsch Fluid Model Obeying Peristaltic Mechanism with Wall Properties

This exploration intends to focus on the impacts of viscous dissipation and thermal radiation on the peristaltic transport of the Rabinowitsch fluid model through a non-uniform inclined tube. Velocity and convective slip impacts are imposed at the walls of the tube. The lubrication approach is utilized to simplify the normalized constitutive equations. The exact outcomes are estimated for the velocity, temperature, and stream function. The impacts of diverse parameters on flow quantities are deliberated and featured through graphs. It is established that the Brickman number communicates to the viscous dissipation impacts; therefore, it helps to raise the liquid temperature in all situations. The higher values of rigidity and stiffness parameters enhanced the number of streamlines because of the liquid circulation for shear thickening case, but it has an opposite trend for the viscous damping force parameter.