Accelerated tool wear-life estimation of carbide tool machining on steel using life data analysis

Abstract

In the machining process, tool life is one of the key phenomena. The longevity and dependability of the tool directly affects its inventory. A tungsten carbide tool, which is typically used in moderate-strength materials cutting, was chosen as a test sample for turning EN24 steel. Under normal situations, traditional life cycle data will be time-consuming. Hence, quantitative accelerated tests were used to determine the tool's life. An accelerated test of the tungsten carbide tool was carried out with three varying levels of the selected parameters. ANOVA was adopted for finding significant factors. The gathered experimental data was investigated using an inverse power law-lognormal distribution in the ALTA PRO 6 analytic tool. The results of the accelerated data are then extrapolated to see how the accelerated data will translate to the different life characteristics associated with the tool under normal conditions.