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Modelling Of Residual Stresses Induced By High Speed Milling Process

Abstract : Maintenance processes used in heavy industries often include high speed milling operations. The reliability of the post-process material state has to be studied. Numerical simulation appears to be a very interesting way to supply an efficient residual stresses (RS) distribution prediction.Because the adiabatic shear band and the serrated chip shaping are features of the austenitic stainless steel high speed machining, a 2D high speed orthogonal cutting model is briefly presented. This finite element model, developed on Forge® software, is based on data taken from Outeiro & al.'s paper [1]. A new behaviour law fully coupling Johnson-Cook's constitutive law and Latham and Cockcroft's damage model is detailed in this paper. It ensures results that fit those found in literature.Then, the numerical tools used on the 2D model are integrated to a 3D high speed milling model. Residual stresses distribution is analysed, on the surface and into the depth of the material. Various revolutions and passes of the two teeth hemispheric mill on the workpiece are simulated. Thus the sensitivity of the residual stresses generation to the cutting conditions can be discussed. In order to validate the 3D model, a comparison of the cutting forces measured by EDF R&D to those given by numerical simulations is achieved
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Contributor : Magalie Prudon <>
Submitted on : Tuesday, May 3, 2011 - 9:48:05 AM
Last modification on : Thursday, September 24, 2020 - 5:22:55 PM



Olivier Desmaison, Katia Mocellin, Nicolas Jardin. Modelling Of Residual Stresses Induced By High Speed Milling Process. The 14th International Esaform Conference on Material Forming: ESAFORM 2011, Apr 2011, Belfast, United Kingdom. pp.597-602 - ISBN 978-0-7354-0911-8, ⟨10.1063/1.3589580⟩. ⟨hal-00590239⟩



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