The role of nanoparticle diameter and solid-fluid interfacial layer behavior under low oscillating magnetic fields: A response surface methodology and ANOVA approach
Published online on July 05, 2025
Abstract
Proceedings of the Institution of Mechanical Engineers, Part N: Journal of Nanomaterials, Nanoengineering and Nanosystems, Ahead of Print.
The present analysis investigates the influence of nanoparticle diameter, low-oscillating magnetic field, and slip conditions on the Boger nanoliquid flow across a rotating rough disk under the impact of solid-fluid interfacial layer. Additionally, the ...
The present analysis investigates the influence of nanoparticle diameter, low-oscillating magnetic field, and slip conditions on the Boger nanoliquid flow across a rotating rough disk under the impact of solid-fluid interfacial layer. Additionally, the ...