Prediction of residual stresses induced in turning – Influence of cutting tool geometry

IF 2 Q3 ENGINEERING, MANUFACTURING

Manufacturing Letters Pub Date : 2025-08-01 DOI:10.1016/j.mfglet.2025.06.075

Joel Rech , Sangil Han , Alexis Cavard , Marc Raffestin , Frédéric Valiorgue

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Abstract

It has long been recognised that machining processes induce residual stresses in machined surfaces. This article focuses on the longitudinal turning process of the martensitic stainless steel 15-5PH. The aim is to investigate the influence of tool geometry, specifically rake angle and edge sharpness, on surface residual stresses. Three turning tools were studied both experimentally and through numerical simulations using the MISULAB software. The results show that the geometry of the cutting tool does not significantly affect the residual stress state in the outer layer. On the contrary, edge radius and rake angle determine the thickness of the affected layer as well as the intensity of the compression peak below the outer layer. Cutting tools with a large edge radius and a small rake angle result in a thick affected depth, characterised by a deep compression peak below the outer layer. The trends observed experimentally are well predicted by the numerical simulations, providing new insights for the design of new cutting tools dedicated to the optimisation of the residual stress state.

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车削过程中残余应力的预测。刀具几何形状的影响

人们早就认识到，加工过程会在加工表面产生残余应力。本文主要研究了马氏体不锈钢15-5PH的纵向车削工艺。目的是研究刀具几何形状，特别是前角和边缘锐度对表面残余应力的影响。利用MISULAB软件对三种车削刀具进行了实验研究和数值模拟。结果表明，刀具几何形状对外层残余应力状态影响不显著。相反，边缘半径和前倾角决定了受影响层的厚度以及外层以下压缩峰的强度。具有大边缘半径和小前角的切削工具会导致较厚的受影响深度，其特征是外层以下的深压缩峰值。数值模拟很好地预测了实验观察到的趋势，为优化残余应力状态的新型切削刀具的设计提供了新的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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