Motivated by the need to improve strain distribution prediction in single point incremental forming process, this study investigates the results obtained from a numerical model developed, in   comparison with experimental results. The problem addressed is the limited experimental validation of finite element predictions, which reduces confidence in process simulations. Using ABAQUS, a detailed model with the help of finite element method was developed and applied to truncated cone parts formed by a KUKA industrial robot. Strain and thickness data were obtained from experimental investigations using a 3D optical measurement system and compared to numerical predictions. The results showed slight overestimations of the numerical model, particularly in minor strains, but overall deviations remained within acceptable limits. The model reliably predicts strain distributions, confirming its applicability for predicting strain distribution in single point incremental forming process and improving manufacturing outcomes.

Racz, S.-G., Breaz, R., Bologa, O., Tera, M., Oleksik, V. S., Using an Adaptive Network-based Fuzzy Inference System to Estimate the Vertical Force in Single Point Incremental Forming, International Journal of Computers Communications & Control, 63-77, 2019

Pepelnjak, T., Sevšek, L., Lužanin, O., Milutinović, M., Finite Element Simplifications and Simulation Reliability in Single Point Incremental Forming, Materials, 1996-1944, 2022

Bologa, O., Breaz, R., Racz, S.-G., Using the Analytic Hierarchy Process (AHP) and fuzzy logic to evaluate the possibility of introducing single point incremental forming on industrial scale, Procedia computer science, 408-416, 2018

Crenganis, M., Breaz, R., Racz, G., Bologa, O., Inverse Kinematics of a 7 DOF Manipulator Using Adaptive Neuro-Fuzzy Inference Systems, Proceedings of the 2012 12TH INTERNATIONAL CONFERENCE ON CONTROL, AUTOMATION, ROBOTICS & VISION (ICARCV), 2012

Bologa, O., Breaz, R., Racz, S.-G., Crenganis, M., Decision-making tool for moving from 3-axes to 5-axes CNC machine-tool, Procedia computer science, 2016

Breaz, R., Bologa, O., Racz, S. -G., Selecting between CNC milling, robot milling and DMLS processes using a combined AHP and fuzzy approach, Procedia Computer Science, 2017