The effect of cutting speed and feed rate on material removal rates for several steel alloys in turning process

Abstract

A typical machining method utilized in the modern area to shape and complete work pieces made out of various materials, including steel compounds, is turning. This study explores the impact of cutting pace and feed rate on material evacuation rates (MRR) for a few steel combinations ordinarily utilized in designing applications. For machining tasks to be streamlined to build efficiency and lower creation costs, it is fundamental to comprehend what these qualities means for MRR. Utilizing a machine and carbide cutting devices, a progression of turning tests were performed on a few steel combinations, and the cutting velocity and feed rate were methodically changed inside a foreordained reach. To decide the impact of cutting velocity and feed rate on MRR, the trial information were genuinely assessed, utilizing Analysis of Variance (ANOVA). As indicated by the examination, the figured metal rate increased out with the feed rate and cutting pace. The most noteworthy rejected metal rate was 180 mm/min at 168.13 m/min cutting pace and 1.12 mm/fire up feed rate. With the feed rate and cutting velocity expanding, so did how much metal that was squandered. 56 mm3 of metal was disposed of at its most elevated volume at a cutting velocity of 168.13 m/min and 1.12 mm/fire up. How much metal that is dismissed increases with feed rate and carbon content, with 56 mm3 at 168.13 m/min and ST3 metal being the most elevated esteem. With feed rate and carbon content, the required energy similarly ascends, with the most elevated esteem being 190 J at 168.13 m/min and ST3 metal.