CAD-Based 3D-FE Modelling of AISI-D3 Turning with Ceramic Tooling

In this study, the development of a 3D Finite Element (FE) model for the turning of AISI-D3 with ceramic tooling is presented, with respect to four levels of cutting speed, feed, and depth of cut. The Taguchi method was employed in order to create the orthogonal array according to the variables involved in the study, reducing this way the number of the required simulation runs. Moreover, the possibility of developing a prediction model based on well-established statistical tools such as the Response Surface Methodology (RSM) and the Analysis of Variance (ANOVA) was examined, in order to further investigate the relationship between the cutting speed, feed, and depth of cut, as well as their influence on the produced force components. The findings of this study point out an increased correlation between the experimental results and the simulated ones, with a relative error below 10% for most tests. Similarly, the values derived from the developed statistical model indicate a strong agreement with the equivalent numerical values due to the verified adequacy of the statistical model.

Automated summary

This study presents the development of a 3D Finite Element model for turning AISI-D3 with ceramic tooling, using the Taguchi method to reduce simulation runs and examining the relationship between cutting parameters and cutting forces through statistical tools. The results show a strong correlation between experimental and simulated results, with a relative error below 10% for most tests, confirming the adequacy of the statistical model.