A finite element model of orthogonal metal cutting including burr formation is presented. A metal-cutting simulation procedure based on a ductile failure criterion is proposed for the purpose of better understanding the burr formation mechanism and obtaining a quantitative analysis of burrs using the finite element method. In this study, the four stages of burr formation, i.e., initiation, initial development, pivoting point, and final development stages, are investigated based on the stress and strain contours with the progressive change of geometry at the edge of the workpiece. Also, the characteristics of thick and thin burrs are clarified along with the negative deformation zone formed in front of the tool edge in the final development stage. [S0094-4289(00)00702-7]

Issue Section:
Technical Papers
Keywords:
metals, manufacturing processes, finite element analysis, machining, cutting
Topics:
Cutting, Deformation, Failure, Finite element analysis, Finite element methods, Finite element model, Metal cutting, Simulation, Steady state, Geometry, Shear (Mechanics)
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