2020
DOI: 10.5267/j.esm.2020.1.003
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Effect of frictional boundary conditions and percentage area reduction on the extrusion pressure of Aluminum AA6063 alloy using FE analysis modelling

Abstract: Finite Element Analysis was carried out to describe the effect of frictional boundary conditions and percentage reduction on deformation modelling (forward extrusion) of Aluminum AA6063 alloy. Curved die profiles of regular polygons (square, hexagonal, heptagonal, and octagonal) were designed using MATLAB R2009b and Autodesk Inventor 2013 to generate the coordinate and the solid CAD model of the die profile respectively form a circular billet. The numerical analysis was performed using Deform TM-3D commercial … Show more

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Cited by 2 publications
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“…The pores appeared in the solder, but this is a metallurgical problem that wasn´t a subject of this examination. As a solution of the problem of wrinkle creation, the different geometries of punch which provide better material flow regulation as well as a mutual motion of a billet and a tool during the head formation, were designed [15][16][17]. The original method of element manufacturing used an upsetting process where the proposed and confirmed process was based on the motion of billet against a punch creating the head of the element.…”
Section: Introductionmentioning
confidence: 99%
“…The pores appeared in the solder, but this is a metallurgical problem that wasn´t a subject of this examination. As a solution of the problem of wrinkle creation, the different geometries of punch which provide better material flow regulation as well as a mutual motion of a billet and a tool during the head formation, were designed [15][16][17]. The original method of element manufacturing used an upsetting process where the proposed and confirmed process was based on the motion of billet against a punch creating the head of the element.…”
Section: Introductionmentioning
confidence: 99%