Drawbeads are applied in the deep drawing process to improve the control of the material flow
during the forming operation. In simulations of the deep drawing process these drawbeads can be replaced by
an equivalent drawbead model. In this paper the usage of an equivalent drawbead model in the finite element
code DiekA is described. The input for this equivalent drawbead model is served by experiments or by a 2D
plane strain drawbead simulation. Simulations and experiments of the deep drawing of a rectangular product
are performed to test the equivalent drawbead model performance. The overall conclusion reads that a real
drawbead geometry can succesfully be replaced by the equivalent drawbead model
| Conference | 4th International Conference and Workshop on Numerical Simulation of 3D Metal Forming Processes, NUMISHEET 1999 |
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| Abbreviated title | NUMISHEET 1999 |
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| Country | France |
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| City | Besancon |
|---|
| Period | 13/09/99 → 17/09/99 |
|---|
| Other | 1999 |
|---|
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@conference{0400d7b0c7d6492b90de10becc2fa9fc,
title = "Equivalent drawbead performance in deep drawing simulations",
abstract = "Drawbeads are applied in the deep drawing process to improve the control of the material flow during the forming operation. In simulations of the deep drawing process these drawbeads can be replaced by an equivalent drawbead model. In this paper the usage of an equivalent drawbead model in the finite element code DiekA is described. The input for this equivalent drawbead model is served by experiments or by a 2D plane strain drawbead simulation. Simulations and experiments of the deep drawing of a rectangular product are performed to test the equivalent drawbead model performance. The overall conclusion reads that a real drawbead geometry can succesfully be replaced by the equivalent drawbead model",
keywords = "IR-59321",
author = "Meinders, {Vincent T.} and Geijselaers, {Hubertus J.M.} and Han Huetink",
year = "1999",
language = "Undefined",
note = "null ; Conference date: 13-09-1999 Through 17-09-1999",
}
Meinders, VT, Geijselaers, HJM & Huetink, H 1999, '
Equivalent drawbead performance in deep drawing simulations' Paper presented at 4th International Conference and Workshop on Numerical Simulation of 3D Metal Forming Processes, NUMISHEET 1999, Besancon, France,
13/09/99 -
17/09/99, .
TY - CONF
T1 - Equivalent drawbead performance in deep drawing simulations
AU - Meinders, Vincent T.
AU - Geijselaers, Hubertus J.M.
AU - Huetink, Han
PY - 1999
Y1 - 1999
N2 - Drawbeads are applied in the deep drawing process to improve the control of the material flow
during the forming operation. In simulations of the deep drawing process these drawbeads can be replaced by
an equivalent drawbead model. In this paper the usage of an equivalent drawbead model in the finite element
code DiekA is described. The input for this equivalent drawbead model is served by experiments or by a 2D
plane strain drawbead simulation. Simulations and experiments of the deep drawing of a rectangular product
are performed to test the equivalent drawbead model performance. The overall conclusion reads that a real
drawbead geometry can succesfully be replaced by the equivalent drawbead model
AB - Drawbeads are applied in the deep drawing process to improve the control of the material flow
during the forming operation. In simulations of the deep drawing process these drawbeads can be replaced by
an equivalent drawbead model. In this paper the usage of an equivalent drawbead model in the finite element
code DiekA is described. The input for this equivalent drawbead model is served by experiments or by a 2D
plane strain drawbead simulation. Simulations and experiments of the deep drawing of a rectangular product
are performed to test the equivalent drawbead model performance. The overall conclusion reads that a real
drawbead geometry can succesfully be replaced by the equivalent drawbead model
KW - IR-59321
M3 - Paper
ER -