A novel methodology to characterize tool-chip contact in metal cutting using partially restricted contact length tools

Ortiz-de-Zarate, Gorka; Madariaga, Aitor; ARRAZOLA, PEDRO JOSE

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Título

A novel methodology to characterize tool-chip contact in metal cutting using partially restricted contact length tools

Autor-a

Ortiz-de-Zarate, Gorka

Madariaga, Aitor

ARRAZOLA, PEDRO JOSE

Autor-a (de otra institución)

Childs, T.H.C

Fecha de publicación

2021

Grupo de investigación

Mecanizado de alto rendimiento

Otras instituciones

University of Leeds

Versión

Postprint

Tipo de documento

ArtículoArtículo

Idioma

eng

Derechos

Acceso

Acceso restringido

Fin de la fecha de embargo

2023-04-30

URI

https://hdl.handle.net/20.500.11984/5270

Versión de la editorial

https://doi.org/10.1016/j.cirp.2021.03.002

Publicado en

CIRP Annals Available online 6 April 2021. In Press, Corrected Proof

Palabras clave

Friction
Machining
Tribology
Temperature

Resumen

A novel methodology to map the friction and normal stress distribution on the rake face using Partially Restricted Contact Length Tools in orthogonal cutting tests is proposed. The influence of cutting speed, feed and coatings on tool-chip friction when machining AISI 1045 is analysed. The results demonstrate that the new methodology can replace the more difficult to use and less robust split-tool method. They confirm two clearly different contact zones: i) the sticking region, governed by the shear flow stress of the workpiece and ii) the sliding region, where the friction coefficient is higher than 1. [-]