Influence of cutting edge radius on tool life in milling inconel 718

Nowadays, cutting tools manufacturing companies must improve their processes in order to satisfy the growing competitiveness. In fact, a hot topic among cutting tool manufacturers is to increase quality and repeatability. However, the technology and know-how used have reached a limit which slightly...

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Hauptverfasser:	Celaya, A., Pereira, O., González, H., Gómez-Escudero, G., Fernández-Lucio, P., Fernández-Valdivielso, A., de Lacalle, L. N. López
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Sprache:	eng
Schlagworte:	Cutting edge radius Cutting parameters Cutting tools Design of experiments Finite element method Incidence angle Nickel base alloys Rake angle Superalloys Tool life Tool wear
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creator	Celaya, A. Pereira, O. González, H. Gómez-Escudero, G. Fernández-Lucio, P. Fernández-Valdivielso, A. de Lacalle, L. N. López
description	Nowadays, cutting tools manufacturing companies must improve their processes in order to satisfy the growing competitiveness. In fact, a hot topic among cutting tool manufacturers is to increase quality and repeatability. However, the technology and know-how used have reached a limit which slightly differences can suppose a high advantage to achieve more robust and reliable tools. Then, a deep study between the different parameters which take part in cutting tools geometry is needed. In this paper, the influence between incidence and rake angles and cutting edge radius were studied with the aim of improving the current cutting tools. In particular, a design of experiments (DOE) was carried out in which these three parameters were analyzed by Finite Element Method (FEM). The results show that cutting edge radius is the parameter which presents the highest influence on the tool wear. Finally, based on this issue, a series of experimental tests were carried out with different cutting edge radius values in order to achieve a tool which improves its useful life in comparison with current ones. The results show that control cutting edge radius implies a significant improvement in cutting tools quality due to the tool life increase achieved.
doi_str_mv	10.1063/1.5112627
format	Conference Proceeding
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N. López</creator><contributor>de Argandoña, Eneko Saenz ; Galdos, Lander ; de Buruaga, Mikel Saez ; Otegi, Nagore ; Mendiguren, Joseba ; Madariaga, Aitor ; Arrazola, Pedro</contributor><creatorcontrib>Celaya, A. ; Pereira, O. ; González, H. ; Gómez-Escudero, G. ; Fernández-Lucio, P. ; Fernández-Valdivielso, A. ; de Lacalle, L. N. López ; de Argandoña, Eneko Saenz ; Galdos, Lander ; de Buruaga, Mikel Saez ; Otegi, Nagore ; Mendiguren, Joseba ; Madariaga, Aitor ; Arrazola, Pedro</creatorcontrib><description>Nowadays, cutting tools manufacturing companies must improve their processes in order to satisfy the growing competitiveness. In fact, a hot topic among cutting tool manufacturers is to increase quality and repeatability. However, the technology and know-how used have reached a limit which slightly differences can suppose a high advantage to achieve more robust and reliable tools. Then, a deep study between the different parameters which take part in cutting tools geometry is needed. In this paper, the influence between incidence and rake angles and cutting edge radius were studied with the aim of improving the current cutting tools. In particular, a design of experiments (DOE) was carried out in which these three parameters were analyzed by Finite Element Method (FEM). The results show that cutting edge radius is the parameter which presents the highest influence on the tool wear. Finally, based on this issue, a series of experimental tests were carried out with different cutting edge radius values in order to achieve a tool which improves its useful life in comparison with current ones. 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The results show that cutting edge radius is the parameter which presents the highest influence on the tool wear. Finally, based on this issue, a series of experimental tests were carried out with different cutting edge radius values in order to achieve a tool which improves its useful life in comparison with current ones. 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López</au><au>de Argandoña, Eneko Saenz</au><au>Galdos, Lander</au><au>de Buruaga, Mikel Saez</au><au>Otegi, Nagore</au><au>Mendiguren, Joseba</au><au>Madariaga, Aitor</au><au>Arrazola, Pedro</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Influence of cutting edge radius on tool life in milling inconel 718</atitle><btitle>AIP conference proceedings</btitle><date>2019-07-02</date><risdate>2019</risdate><volume>2113</volume><issue>1</issue><issn>0094-243X</issn><eissn>1551-7616</eissn><coden>APCPCS</coden><abstract>Nowadays, cutting tools manufacturing companies must improve their processes in order to satisfy the growing competitiveness. In fact, a hot topic among cutting tool manufacturers is to increase quality and repeatability. However, the technology and know-how used have reached a limit which slightly differences can suppose a high advantage to achieve more robust and reliable tools. Then, a deep study between the different parameters which take part in cutting tools geometry is needed. In this paper, the influence between incidence and rake angles and cutting edge radius were studied with the aim of improving the current cutting tools. In particular, a design of experiments (DOE) was carried out in which these three parameters were analyzed by Finite Element Method (FEM). The results show that cutting edge radius is the parameter which presents the highest influence on the tool wear. Finally, based on this issue, a series of experimental tests were carried out with different cutting edge radius values in order to achieve a tool which improves its useful life in comparison with current ones. 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subjects	Cutting edge radius Cutting parameters Cutting tools Design of experiments Finite element method Incidence angle Nickel base alloys Rake angle Superalloys Tool life Tool wear
title	Influence of cutting edge radius on tool life in milling inconel 718
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