Effect of rake angle-based Johnson-Cook material constants on the prediction of residual stresses and temperatures induced in Al2024-T3 machining

Nowadays finite element modeling (FEM) has become a vital and irreplaceable simulation tool in studying the machining processes. The machining simulation results depend strongly on the constitutive law and the characterization methods used to determine its constants. In the present work, three diffe...

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Published inInternational journal of mechanical sciences Vol. 122; pp. 392 - 404
Main Authors Daoud, M., Chatelain, J.F., Bouzid, A.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.03.2017
Subjects
Al2024-T3
Cutting temperature
FEM
Johnson-Cook constitutive law
Machining
Residual stresses
Johnson-Cook constitutive law
Al2024-T3
Residual stresses
Cutting temperature
Machining
FEM
Online AccessGet full text
ISSN0020-7403
1879-2162
DOI10.1016/j.ijmecsci.2017.01.020

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Abstract Nowadays finite element modeling (FEM) has become a vital and irreplaceable simulation tool in studying the machining processes. The machining simulation results depend strongly on the constitutive law and the characterization methods used to determine its constants. In the present work, three different sets of Johnson-Cook (JC) constants, determined through orthogonal machining tests at different rake angles, are used in FEM to simulate the behavior of Al2024-T3 alloy under high speed machining (HSM) process. The effect of these sets on the predicted residual stresses within the machined workpiece and the temperatures of the cutting tool are the subject of a comparative investigation. It is found that the residual stress distributions are much more sensitive to these sets of JC than the temperature distributions. Additionally, it is concluded that the set of JC obtained at 0° rake angle, JC(0°), gives an overall more accurate prediction of the investigated parameters. •Three sets of material constants are determined at three rake angles.•Residual stresses are much more sensitive to the material sets.•Cutting temperatures is not much affected by the material sets.•Material set obtained at 0° rake angle shows an overall more accurate prediction.
AbstractList Nowadays finite element modeling (FEM) has become a vital and irreplaceable simulation tool in studying the machining processes. The machining simulation results depend strongly on the constitutive law and the characterization methods used to determine its constants. In the present work, three different sets of Johnson-Cook (JC) constants, determined through orthogonal machining tests at different rake angles, are used in FEM to simulate the behavior of Al2024-T3 alloy under high speed machining (HSM) process. The effect of these sets on the predicted residual stresses within the machined workpiece and the temperatures of the cutting tool are the subject of a comparative investigation. It is found that the residual stress distributions are much more sensitive to these sets of JC than the temperature distributions. Additionally, it is concluded that the set of JC obtained at 0° rake angle, JC(0°), gives an overall more accurate prediction of the investigated parameters. •Three sets of material constants are determined at three rake angles.•Residual stresses are much more sensitive to the material sets.•Cutting temperatures is not much affected by the material sets.•Material set obtained at 0° rake angle shows an overall more accurate prediction.
Author Bouzid, A.
Chatelain, J.F.
Daoud, M.
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Keywords Johnson-Cook constitutive law
Al2024-T3
Residual stresses
Cutting temperature
Machining
FEM
Language English
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Snippet Nowadays finite element modeling (FEM) has become a vital and irreplaceable simulation tool in studying the machining processes. The machining simulation...
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SubjectTerms Al2024-T3
Cutting temperature
FEM
Johnson-Cook constitutive law
Machining
Residual stresses
Title Effect of rake angle-based Johnson-Cook material constants on the prediction of residual stresses and temperatures induced in Al2024-T3 machining
URI https://dx.doi.org/10.1016/j.ijmecsci.2017.01.020
Volume 122
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