International Journal of Computer Aided Manufacturing

- Artificial neural networks offer a practical and efficient way to choose the best machining parameters for the turning process in order to reduce surface roughness, the resulting cutting forces, and maximize tool life. Surface roughness is a significant aspect in the evaluation of cutting performance and plays a significant role in the manufacturing process. The goal of this project is to create a model based on an Artificial Neural Network that can replicate hard turning of EN19 steel with only a small amount of cutting fluid. In terms of cutting parameters, this model is meant to forecast the surface roughness. Following training with a set of training data for a specified number of cycles, various network topologies are assessed using input/output data sets specifically designated for this purpose. The root means the square error is determined for the selected architectures. Utilizing linear regression, the regression equation is established. And by applying ANN to this equation, we can forecast the surface roughness of test data.

Ranganath M S, Vipin, R S Mishra "Application

of ANN for Prediction of Surface Roughness in

Turning Process: A Review" Volume 1, Issue 3

(2013) 229-233 ISSN 2347 – 3258.

Yogesh V. Deshpande Atul B. Andhare Pramod

M. Padole “Application of ANN to estimate surface

roughness using cutting parameters, force, sound

and vibration in turning of Inconel 718” SN Applied

Sciences (2019) 1:104 |

https://doi.org/10.1007/s42452-018-0098-4

Chandrasekaran, M.a, Devarasiddappa, D.b

“Artificial neural network modeling for surface

roughness prediction in cylindrical grinding of

Al‐ SiCp metal matrix composites and ANOVA

analysis’ Advances in Production Engineering &

Management ISSN 1854‐6250 Volume 9 |

Number 2 | June 2014 | pp 59–70.

Maohua Xiao, 1,2 Xiaojie Shen,1 You Ma,1 Fei

Yang,1 Nong Gao,2 Weihua Wei,3 and Dan Wu1

“Prediction of Surface Roughness and Optimization

of Cutting Parameters of Stainless Steel Turning

Based on RSM” Volume 2018, Article ID 9051084,

pages.

Paul B. K. M. et al., (2014), ‘Optimization of

cutting parameters in hard turning of AISI 4340

steel’, International Journal of Innovative Research

in Advanced Engineering (IJIRAE), ISSN: 2349-

, Volume 1, Issue 8.

Hossain MI, Amin AKMN, Patwari AU (2008)

Development of an artificial neural network

algorithm for predicting the surface roughness in

end milling of Inconel 718 Alloy, IEEE ICCCE

Proceedings of the International Conference

on Computer and Communication Engineering

, May 13–15, 2008, Kuala Lumpur, Malaysia,

pp 1321–1324.

Assarzadeh S, Ghoreishi M (2008) Neural-

network-based modeling and optimization of the

electro-discharge machining process. Int J Adv

Manufacturing Technology. 39:488–500.

Malakooti B, Raman V (2000) An interactive

multi-objective artificial neural network approach

for machine setup optimization. J Intell Manuf

:41–50.

Sarma DK, Dixit US (2007) A comparison of

dry and air-cooled turning of grey cast iron with

mixed oxide ceramic tool. J Mater Process

Technol 190:160–172.

Rosenblatt F (1958) The perceptron: a

probabilistic model for information storage and

organization in the brain. Psychol Revue

:386–408.