Abstract
Over the last two decades, turning machining has emerged as a significant study field for reducing material surface roughness. The current research intends to improve the effects of process variables such cutting speed, depth of cut and feed rate on the rate of material removal and surface roughness morphology created on the machined component. The L9 theory of Taguchi was used to design the experiment. The MRR was shown to be primarily influenced by spindle speed and depth of cut. The topography of the machined surface was revealed by scanning electronic microscopy, which is used to evaluate microstructures. The surface features microcracks, distinct craters, and spherical droplets, which show that melting and evaporation were used to remove the material and that surface, were created as a result. An unbeatable set of parameters were used in a confirmation experiment to verify the research, and the results were determined to be in excellent accord with the experimental data. The results have been re-verified and found to have an error of less than 6%.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call