Comparison of various tool wear prediction methods during end milling of metal matrix composite

Comparison of various tool wear prediction methods during end milling of metal matrix composite AbstractIn this paper, the problem of tool wear prediction during milling of hard-to-cut metal matrix composite Duralcan™ was presented. The conducted research involved the measurements of acceleration of vibrations during milling with constant cutting conditions, and evaluation of the flank wear. Subsequently, the analysis of vibrations in time and frequency domain, as well as the correlation of the obtained measures with the tool wear values were conducted. The validation of tool wear diagnosis in relation to selected diagnostic measures was carried out with the use of one variable and two variables regression models, as well as with the application of artificial neural networks (ANN). The comparative analysis of the obtained results enable. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Archives of Mechanical Technology and Materials de Gruyter

Comparison of various tool wear prediction methods during end milling of metal matrix composite

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Publisher
de Gruyter
Copyright
© 2018
ISSN
2450-9469
eISSN
2450-9469
D.O.I.
10.2478/amtm-2018-0001
Publisher site
See Article on Publisher Site

Abstract

AbstractIn this paper, the problem of tool wear prediction during milling of hard-to-cut metal matrix composite Duralcan™ was presented. The conducted research involved the measurements of acceleration of vibrations during milling with constant cutting conditions, and evaluation of the flank wear. Subsequently, the analysis of vibrations in time and frequency domain, as well as the correlation of the obtained measures with the tool wear values were conducted. The validation of tool wear diagnosis in relation to selected diagnostic measures was carried out with the use of one variable and two variables regression models, as well as with the application of artificial neural networks (ANN). The comparative analysis of the obtained results enable.

Journal

Archives of Mechanical Technology and Materialsde Gruyter

Published: Feb 7, 2018

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