An improved neural network model for residual stress prediction in turning

Results presented in this paper are related to the prediction of the longitudinal residual stress generated by the turning process. The main problems associated with the prediction capability of empirical models developed using the design of experiment (DOE) method are given. Their limited aptitude...

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Bibliographic Details
Main Authors: Amamou, R., Fredj, N.B., Rhouma, A.B., Fnaiech, F.
Format: Conference Proceeding
Language:English
Subjects:
Applied sciences
Artificial neural networks
Computer science
control theory
systems
Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Intelligent networks
Machining
Neural networks
Physics
Predictive models
Residual stresses
Solid mechanics
Structural and continuum mechanics
Surface cracks
Surface resistance
Turning
US Department of Energy
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Summary:Results presented in this paper are related to the prediction of the longitudinal residual stress generated by the turning process. The main problems associated with the prediction capability of empirical models developed using the design of experiment (DOE) method are given. Their limited aptitude to calculate an accurate output value constitutes a serious limitation of the application of this method to residual stress prediction. In this study an approach suggesting the combination of DOE method and artificial neural network (ANN) is developed. Data of the DOE were used to train the ANNs and the inputs of the developed ANNs were selected among the factors and interaction between factors of the DOE depending on their significance at different confidence levels, expressed by /spl alpha/. Results have put in evidence the existence of a critical set of inputs for which the best learning results of the ANNs can be realied. A high prediction accuracy of these ANNs was tested through a good agreement with the empirical models developed by previous investigations.
DOI:10.1109/ICIT.2004.1490215