Modelling of Flank wear, Surface roughness and Cutting Temperature in Sustainable Hard Turning of AISI D2 Steel

• Published in: Procedia manufacturing Vol. 20; pp. 406 - 413
• Main Authors: Kumar, Ramanuj, Sahoo, Ashok Kumar, Das, Rabin Kumar, Panda, Amlana, Mishra, Purna Chandra
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 2018
• Subjects: AISI D2 steel; ANN; Hard turning; RSM; ANN; AISI D2 steel; RSM; Hard turning
• ISSN: 2351-9789; 2351-9789
• DOI: 10.1016/j.promfg.2018.02.059

Productivity and quality of products are major concern for industries aspects. However present paper focused on the investigation of flank wear, average roughness of the surface and chip-tool interface temperature in the machine turning of heat-treated AISI D2 grade tool steel using indexable multi-layer coated carbide inserts. Abrasion, diffusion, chipping and catastrophic breakage are major tool failure mechanisms involved. Response surface methodology (RSM) based models and Artificial-Neural-Network (ANN) models are implemented for forecasting the responses in hard-turning. Comparative assessment between actual and predicted results has been carried. ANN model for flank wear generated more accurate results compare to RSM Model whereas for surface finish and chip-tool interface temperature, the accuracy of RSM based prediction is more precise compared to ANN.