FEM SIMULATION OF COMBINED EXTRUSION METHOD (ECAE/DIRECT EXTRUSION)
Equal Channel Angular Extrusion (ECAE) is known as a severe plastic deformation process and material is deformed without any geometrical change. It is widely used for obtaining high mechanical properties from the product. Direct Extrusion is another plastic deformation process in which a workpiece i...
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doaj-12783fb6674f43efbfb1f38c701320e92020-11-24T22:05:35ZengPolish Association for Knowledge PromotionApplied Computer Science1895-37352353-69772015-06-01112FEM SIMULATION OF COMBINED EXTRUSION METHOD (ECAE/DIRECT EXTRUSION)ÖNDER AYER0Trakya University, Department of Mechanical Engineering, Ahmet Karadeniz Yerleşkesi, 22030 Edirne, Turkey, onderayer@trakya.edu.trEqual Channel Angular Extrusion (ECAE) is known as a severe plastic deformation process and material is deformed without any geometrical change. It is widely used for obtaining high mechanical properties from the product. Direct Extrusion is another plastic deformation process in which a workpiece is reduced in cross-section by forcing it through the die opening of a small cross-sectional area than that of the original billet. In this study, these two processes are combined together via using DEFORM 3D which is a very specialized software for metal forming operations. Lead is used as workpiece material to simulate hot forming conditions and also process parameters (die angle and die land length) were investigated. The forming load and strain components were calculated from the FEM results obtained from DEFORM 3D software.http://acs.pollub.pl/pdf/v11n2/5.pdfFEMEqual Channel Angular ExtrusionDirect ExtrusionDEFORM 3D |
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DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
ÖNDER AYER |
spellingShingle |
ÖNDER AYER FEM SIMULATION OF COMBINED EXTRUSION METHOD (ECAE/DIRECT EXTRUSION) Applied Computer Science FEM Equal Channel Angular Extrusion Direct Extrusion DEFORM 3D |
author_facet |
ÖNDER AYER |
author_sort |
ÖNDER AYER |
title |
FEM SIMULATION OF COMBINED EXTRUSION METHOD (ECAE/DIRECT EXTRUSION) |
title_short |
FEM SIMULATION OF COMBINED EXTRUSION METHOD (ECAE/DIRECT EXTRUSION) |
title_full |
FEM SIMULATION OF COMBINED EXTRUSION METHOD (ECAE/DIRECT EXTRUSION) |
title_fullStr |
FEM SIMULATION OF COMBINED EXTRUSION METHOD (ECAE/DIRECT EXTRUSION) |
title_full_unstemmed |
FEM SIMULATION OF COMBINED EXTRUSION METHOD (ECAE/DIRECT EXTRUSION) |
title_sort |
fem simulation of combined extrusion method (ecae/direct extrusion) |
publisher |
Polish Association for Knowledge Promotion |
series |
Applied Computer Science |
issn |
1895-3735 2353-6977 |
publishDate |
2015-06-01 |
description |
Equal Channel Angular Extrusion (ECAE) is known as a severe plastic deformation process and material is deformed without any geometrical change. It is widely used for obtaining high mechanical properties from the product. Direct Extrusion is another plastic deformation process in which a workpiece is reduced in cross-section by forcing it through the die opening of a small cross-sectional area than that of the original billet. In this study, these two processes are combined together via using DEFORM 3D which is a very specialized software for metal forming operations. Lead is used as workpiece material to simulate hot forming conditions and also process parameters (die angle and die land length) were investigated. The forming load and strain components were calculated from the FEM results obtained from DEFORM 3D software. |
topic |
FEM Equal Channel Angular Extrusion Direct Extrusion DEFORM 3D |
url |
http://acs.pollub.pl/pdf/v11n2/5.pdf |
work_keys_str_mv |
AT onderayer femsimulationofcombinedextrusionmethodecaedirectextrusion |
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1725825662381457408 |