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Finite element analysis of eccentric loading in high-velocity impact forging
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 Title & Authors
Finite element analysis of eccentric loading in high-velocity impact forging
Yoo, Yo-Han; Yang, Dong-Yol;
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 Abstract
The high-velocity impact forging process with eccentric loading condition is analyzed using the explicit time integration finite element method. In order to consider the strain hardening, strain rate hardening and thermal softening effects, which are frequently observed in high-velocity deformation phenomena, the Johnson-Cook constitutive model is applied to model the workpiece. It is assumed that the material response of the dies is elastic in the study. As a result of the eccentric loading simulation, it is found that the increase of the eccentric ratio and the allowable tilting angle cause the decrease of the maximum forging load and the blow efficiency, and it is also found that the forging load and the blow efficiency generated in the high-velocity impact forging process with three-dimensional geometry can be obtained efficiently.
 Keywords
High-Velocity Impact Forging;Eccentric Loading;Finite Element Analysis;Blow Efficiency;
 Language
Korean
 Cited by
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