Computer Simulation of the Half-Tore Forming Process from a Ring Blank

This paper presents the theoretical foundations and methodology of the modeling process of forming a half ring alloy blank AMg5M in software product Pam-Stamp. At the following technological sizes of a half-tore: the blank radius 516.5 mm; hole’s radius R0=480.74 mm, distance from the generating cir...

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Veröffentlicht in:	Key Engineering Materials 2016-02, Vol.684, p.227-233
Hauptverfasser:	Erisov, Yaroslav A., Suleymanova, Ilmira, Shlyapugin, Aleksey
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Sprache:	eng
Schlagworte:	Aerospace engineering Aluminum alloys Blanks Computer programs Computer simulation Forming Mathematical analysis Modelling Numerical analysis Optimization Strain
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description	This paper presents the theoretical foundations and methodology of the modeling process of forming a half ring alloy blank AMg5M in software product Pam-Stamp. At the following technological sizes of a half-tore: the blank radius 516.5 mm; hole’s radius R0=480.74 mm, distance from the generating circle center to the axis of rotation R1=714 mm, the generating circle radius Rp=93 mm, curvature radius of die Rd=16 mm, the process is stable. The results of numerical analysis of the drawing half-tore from the ring blank directed to determining the optimal process parameters are revealed. Modeling shows that the size of the holes in the blank has a significant influence on the distribution of strain along the generatrix of the stamped parts. Using the ring blank reduces the probability of wrinkling in the free areas.
doi_str_mv	10.4028/www.scientific.net/KEM.684.227
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subjects	Aerospace engineering Aluminum alloys Blanks Computer programs Computer simulation Forming Mathematical analysis Modelling Numerical analysis Optimization Strain
title	Computer Simulation of the Half-Tore Forming Process from a Ring Blank
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