0000000000994622

AUTHOR

F. Gabrielli

showing 2 related works from this author

Validation of frictional studies by double-cup extrusion tests in cold-forming

1996

Abstract Studies on frictional conditions in cold-forming have shown that, for a given lubricant, friction factor values are strongly affected by the test method. In the present paper, different cold-forging processes of an aluminium alloy, are modelled by a FEM numerical code using the m values obtained by both the double cup extrusion and ring compression tests. It appears that the m values given by the ring tests can be effectively used in the simulation of upsetting processes, while the m values derived by the double cup extrusion tests are more appropriate for predictions in extrusion and closed-die forging operations.

Materials scienceMechanical EngineeringMetallurgyTest methodCompression (physics)Industrial and Manufacturing EngineeringFinite element methodForgingvisual_artAluminium alloyvisual_art.visual_art_mediumLubricationComputer Science::Programming LanguagesExtrusionComposite materialLubricant
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Sheet Bending Modelling for AA 5083 Aluminium Alloy

1995

An extensive investigation of the V- and U-die bending processes of AA 5083 aluminium alloy has been performed by means of the finite element method and the experimental tests. The predicted results, in terms of elastic springback and loads, were compared with the experimental ones in similar conditions. At a given punch stroke, the springback ratio K increases with the sheet thickness, and, at a constant sheet thickness, K increases with the punch stroke. The comparison between predicted and experimental K values shows an excellent agreement in all the ranges of punch stroke and sheet thickness investigated. A very good agreement between the predicted bending forces and the experimental on…

6111 aluminium alloyMaterials science5083 aluminium alloy6063 aluminium alloyBendingComposite material5005 aluminium alloyFinite element method
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