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Prediction of Chip Forms using Neural Network and Experimental Design Method  

한성종 (대우고등기술원)
최진필 (연세대학교 기계공학과 대학원)
이상조 (연세대학교 기계공학과)
Publication Information
Journal of the Korean Society for Precision Engineering / v.20, no.11, 2003 , pp. 64-70 More about this Journal
Abstract
This paper suggests a systematic methodology to predict chip forms using the experimental design technique and the neural network. Significant factors determined with ANOVA analysis are used as input variables of the neural network back-propagation algorithm. It has been shown that cutting conditions and cutting tool shapes have distinct effects on the chip forms, so chip breaking. Cutting tools are represented using the Z-map method, which differs from existing methods using some chip breaker parameters. After training the neural network with selected input variables, chip forms are predicted and compared with original chip forms obtained from experiments under same input conditions, showing that chip forms are same at all conditions. To verify the suggested model, one tool not used in training the model is chosen and input to the model. Under various cutting conditions, predicted chip forms agree well with those obtained from cutting experiments. The suggested method could reduce the cost and time significantly in designing cutting tools as well as replacing the“trial-and-error”design method.
Keywords
Chip Form; Chip Breaking; Neural Network; Back-Propagation Algorithm; Experimental Design;
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  • Reference
1 Kim, D. J., Theory and Application of Neural Network, Hi-Tech Info, 1989
2 Rahman, M., Zhang, X. D., 'Three Dimensional Model of Chip Flow, Cirl Breaking under the Concept of Equivalent Parameters,' Int.J. of Maching Tool and Manufact., Vol. 35, No. 7, pp. 1015-1031   DOI   ScienceOn
3 Choi, J. P., Lee, S. J., 'Chip Breaking Predition in Turning Process Using Three-Dimensional Cutting Model,' J. of the KSPE, Vol. 16, No. 9, pp. 191-199
4 C. Nedeb, 'Real-Time Monitoring and Controlling pf Chip Forn in Turning Processes with Acoustic Emission using Thin Film Sensors,' Transactions of NAMRI/SNE, Vol. 37/5, pp. 569-577, 1997   DOI
5 Kim, H. K., Shim, J. H., 'Performance Evaluation of Chip Breakers Using Neural Network,' Proc. of the KSPE, pp.70-74, 1998
6 Park, J. H., Modern Experimental Design, Min Young-Sa, 1997
7 Jun, J. Y., Ko, T. J., 'Selection of Chip Breakers Based on Experimental,' Proc. of the KSPE, pp. 271-275, 1997