Prediction of Residual Stresses in Components Using the Contour Method Article Swipe

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Residual stress Machining Finite element method Residual Extrusion Forging Process (computing) Mechanical engineering Casting Plane (geometry) Component (thermodynamics) Tool path Algorithm Engineering drawing Structural engineering Computer science Engineering Materials science Geometry Mathematics Metallurgy Operating system Thermodynamics Physics

Mats Werke , Peter Ottosson , Daniel Semere , Filmon Yacob ·

YOU? · · 2022 · Open Access · · DOI: https://doi.org/10.3233/atde220135 · OA: W4224291500

During machining the accumulated bulk stresses induced by previous shape forming process steps, such as forging, casting or additive manufacturing and subsequent heat treatment, will be released and cause undesirable geometry errors on the final component. By considering the residual stresses during process planning a significant improvement in dimensional accuracy can be achieved. This paper presents experiences for prediction of residual stresses for components with complex geometries using the Contour method. Three sectioning procedures have been tested and a cutting strategi using Electric Discharge Machining with slow feed rate and cutting from two sides with final cut in the middle is proposed. Two Finite Element modelling strategies for 3D-models have been tested and a meshing strategy based on extrusion of the geometry from the cut plane is recommended. Further, a procedure to automate the Finite Element meshing of complex structures using the Alpha Shape algorithm is proposed. The ambition is to integrate this algorithm in procedures for automatization of the entire analysis.