2016
DOI: 10.1177/1687814016659823
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Finite element analysis of chip breaker geometry in turning process

Abstract: This article applied the rigid-plastic finite element software, DEFORM TM -3D, to investigate the cutting plastic deformation behavior of 6061 aluminum alloy. The main design contained a variety of different geometric types of chip breakers for turning tools. There were three kinds of geometries for chip breakers in our design: the first one is an ordinary cutting tools provided without chip breaker, the second one is a squared concave contour, and the last one is an elliptical concave contour. For the purpose… Show more

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Cited by 5 publications
(2 citation statements)
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“…Also, the designed tools are sensitive to the experimental setups used in testing, e.g., machine tools and fixtures. & Finite element method (FEM): it has been employed in simulation of the cutting process, targeting reducing the number of physical experiments [29][30][31], and a well-developed FEM model can therefore provide a reference for cutting tool design [32]. Although FEM has a great potential benefit in terms of cost and efficiency, the cutting process cannot be represented accurately, in which it is hard to guarantee a critical design requirement of cutting tools, especially in machining of superalloys.…”
Section: Cutting Tool Designmentioning
confidence: 99%
“…Also, the designed tools are sensitive to the experimental setups used in testing, e.g., machine tools and fixtures. & Finite element method (FEM): it has been employed in simulation of the cutting process, targeting reducing the number of physical experiments [29][30][31], and a well-developed FEM model can therefore provide a reference for cutting tool design [32]. Although FEM has a great potential benefit in terms of cost and efficiency, the cutting process cannot be represented accurately, in which it is hard to guarantee a critical design requirement of cutting tools, especially in machining of superalloys.…”
Section: Cutting Tool Designmentioning
confidence: 99%
“…Although numerous tool manufacturers still base their tool-designs on try-and-see methods based on their previous experience [19], FEM is considered a reliable tool to assess the relative performance of several designs of engineering components, and has been extensively used for the design of cutting tools [32][33][34]. Gurbuz et al [35] pointed out the significance of FEM to evaluate different design geometries to determine a final design before manufacturing, which is substantially cheaper than trial and error methods.…”
Section: Chip Breaker Fe Design For a Pcd Turning Insertmentioning
confidence: 99%