TECHNOLOGIES
ESTIMATION OF CUTTING FORCES IN HIGH PRESSURE JET ASSISTED TURNING USING PSO AND SA BASED APPROACH
- 1 Faculty of Mechanical Engineering, University of Banja Luka, Bosnia and Herzegovina
- 2 Faculty of Mechanical Engineering, University of Ljubljana, Slovenia
Abstract
Modelling and prediction of cutting forces in metal cutting is very important, due to their significant impacts on quality of machined surface, tool wear, self-excited vibrations, etc. However, accurate modelling of the cutting forces in high pressure jet assisted machining is not a simply task due to complex relations between many highly interlinked variables of cutting process influencing these forces. The objective of this study is to utilize two artificial intelligence methods, namely particle swarm optimization (PSO) and simulated annealing (SA), for prediction of the cutting forces components in high pressure jet assisted turning of carbon steel Ck45E. A study of effect of various process parameters including feed, cutting speed and depth of cut on the cutting forces was carried out. The results obtained from the PSO and SA based models were compared with experimental results for their performance. The analysis reveals that developed models are able to make accurate prediction of cutting forces by utilizing small sized training and testing datasets.