Predicting tool life for side milling in C45 E using Colding and Taylor tool life models

Fredrik Kantojärvi; Elias Vikenadler; Daniel Johansson; Sören Hägglund; Rachid M'Saoubi

doi:10.1016/j.aime.2023.100126

Predicting tool life for side milling in C45 E using Colding and Taylor tool life models

Fredrik Kantojärvi, Elias Vikenadler, Daniel Johansson, Sören Hägglund, Rachid M'Saoubi

Seco Tools AB

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Abstract

This paper investigates the possibility of using empirical tool life models to predict tool life in a side milling application in a medium carbon steel, C 45E. To do this, an extensive dataset containing 46 data points with different machining parameters are produced. Four different empirical models: Taylor's equation, Colding's equation and Extended Taylor both using depth of cut and feed as well as an Extended Taylor using equivalent chip thickness has been considered. It is found that Colding's equation is best suited to predict the tool life for this application. Furthermore, this paper suggests a novel method to fit the experimental data to the empirical models. Based on the results from previously published papers it is shown that the proposed method performs equally or better to determine the model constants.

Original language	English
Article number	100126
Journal	Advances in Industrial and Manufacturing Engineering
Volume	7
DOIs	https://doi.org/10.1016/j.aime.2023.100126
Publication status	Published - 2023 Nov

Subject classification (UKÄ)

Probability Theory and Statistics

Free keywords

Colding's equation
Machining
Milling
Taylor formula
Tool life

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10.1016/j.aime.2023.100126Licence: CC BY

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title = "Predicting tool life for side milling in C45 E using Colding and Taylor tool life models",

abstract = "This paper investigates the possibility of using empirical tool life models to predict tool life in a side milling application in a medium carbon steel, C 45E. To do this, an extensive dataset containing 46 data points with different machining parameters are produced. Four different empirical models: Taylor's equation, Colding's equation and Extended Taylor both using depth of cut and feed as well as an Extended Taylor using equivalent chip thickness has been considered. It is found that Colding's equation is best suited to predict the tool life for this application. Furthermore, this paper suggests a novel method to fit the experimental data to the empirical models. Based on the results from previously published papers it is shown that the proposed method performs equally or better to determine the model constants.",

keywords = "Colding's equation, Machining, Milling, Taylor formula, Tool life",

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doi = "10.1016/j.aime.2023.100126",

language = "English",

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T1 - Predicting tool life for side milling in C45 E using Colding and Taylor tool life models

AU - Kantojärvi, Fredrik

AU - Vikenadler, Elias

AU - Johansson, Daniel

AU - Hägglund, Sören

AU - M'Saoubi, Rachid

PY - 2023/11

Y1 - 2023/11

N2 - This paper investigates the possibility of using empirical tool life models to predict tool life in a side milling application in a medium carbon steel, C 45E. To do this, an extensive dataset containing 46 data points with different machining parameters are produced. Four different empirical models: Taylor's equation, Colding's equation and Extended Taylor both using depth of cut and feed as well as an Extended Taylor using equivalent chip thickness has been considered. It is found that Colding's equation is best suited to predict the tool life for this application. Furthermore, this paper suggests a novel method to fit the experimental data to the empirical models. Based on the results from previously published papers it is shown that the proposed method performs equally or better to determine the model constants.

AB - This paper investigates the possibility of using empirical tool life models to predict tool life in a side milling application in a medium carbon steel, C 45E. To do this, an extensive dataset containing 46 data points with different machining parameters are produced. Four different empirical models: Taylor's equation, Colding's equation and Extended Taylor both using depth of cut and feed as well as an Extended Taylor using equivalent chip thickness has been considered. It is found that Colding's equation is best suited to predict the tool life for this application. Furthermore, this paper suggests a novel method to fit the experimental data to the empirical models. Based on the results from previously published papers it is shown that the proposed method performs equally or better to determine the model constants.

KW - Colding's equation

KW - Machining

KW - Milling

KW - Taylor formula

KW - Tool life

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DO - 10.1016/j.aime.2023.100126

M3 - Article

AN - SCOPUS:85165999873

SN - 2666-9129

VL - 7

JO - Advances in Industrial and Manufacturing Engineering

JF - Advances in Industrial and Manufacturing Engineering

M1 - 100126

ER -

Predicting tool life for side milling in C45 E using Colding and Taylor tool life models

Abstract

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