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Assessment of Commonly used Tool Life Models in Metal Cutting
Author(s) -
Daniel Johansson,
Sören Hägglund,
Volodymyr Bushlya,
Jan-Eric Ståhl
Publication year - 2017
Publication title -
procedia manufacturing
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.504
H-Index - 43
ISSN - 2351-9789
DOI - 10.1016/j.promfg.2017.07.154
Subject(s) - work (physics) , cutting tool , chip , tool wear , carbide , engineering , mechanical engineering , engineering drawing , computer science , machining , materials science , metallurgy , electrical engineering
In this work, eleven different combinations of work piece materials and tool grades have been evaluated in wear test when turning with cemented carbide insert. The most commonly used tool life models such as the Taylor model, the Extended Taylor model, the Coromant Turning model version 1 and the Colding model have been tested on the data and their accuracy is presented. The well-known Taylor model proves to have a limited ability to reproduce the data. The most accurate model is the Colding model, with an average model error of approximately 4.0% and Woxén equivalent chip thickness proves to work well for all presented tool life models. This work also discusses the models ability to reproduce cutting data for finishing operations and possible limitations when extrapolating the models for smaller chip thicknesses

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