Investigation of a moveable flash gap in hot forging

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Jan Langner
  • Malte Stonis
  • Bernd Arno Behrens

External Research Organisations

  • Institut für integrierte Produktion Hannover (IPH)
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Details

Original languageEnglish
Pages (from-to)199-208
Number of pages10
JournalJournal of Materials Processing Technology
Volume231
Publication statusPublished - 24 Dec 2015
Externally publishedYes

Abstract

The most common method of bulk forming processes is closed die forging with flash. In these processes a surplus of material is used to ensure a complete filling of the cavity of the forging die. The surplus material is driven out of the die through the flash land, thus the design of the flash land has a major influence on the filling of the die. All dimensions of the flash land are typically fixed during the manufacturing process of the die and can not be changed within the forging process. By use of a moveable flash gap that can be actively changed during the forging process the material flow can be altered. This permits to improve the filling of the cavity. In this paper a moveable flash gap for a hot forging process is described and the influence of such a system on the filling of the die cavity is determined. This is done by a comparison to a conventional forging process with a fixed flash land. Furthermore, the results of experimental trials are compared to results of corresponding FEA simulations. Additionally, the influence of the initial billet temperature is investigated. Experimental trials showed that the moveable flash gap has a distinct influence on the material flow. The higher the flash ratio, the bigger is the influence of the moveable flash gap. The moveable flash gap is designed as a flash brake of a height of 2 mm. Its usage lead to differences in height of the parts up to 4.5 mm, which correspond to 16.6% of the parts volume, compared to parts forged with a fixed flash land. If the forging temperature is decreased from 1200°C to 1000°C, the influence of the moveable flash gap is reduced. The average differences in height are about 0.5 mm (about 3%).

Keywords

    Die design, FEA, Flash gap, Flash land, Forging, Material flow

ASJC Scopus subject areas

Cite this

Investigation of a moveable flash gap in hot forging. / Langner, Jan; Stonis, Malte; Behrens, Bernd Arno.
In: Journal of Materials Processing Technology, Vol. 231, 24.12.2015, p. 199-208.

Research output: Contribution to journalArticleResearchpeer review

Langner J, Stonis M, Behrens BA. Investigation of a moveable flash gap in hot forging. Journal of Materials Processing Technology. 2015 Dec 24;231:199-208. doi: 10.1016/j.jmatprotec.2015.12.019
Langner, Jan ; Stonis, Malte ; Behrens, Bernd Arno. / Investigation of a moveable flash gap in hot forging. In: Journal of Materials Processing Technology. 2015 ; Vol. 231. pp. 199-208.
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title = "Investigation of a moveable flash gap in hot forging",
abstract = "The most common method of bulk forming processes is closed die forging with flash. In these processes a surplus of material is used to ensure a complete filling of the cavity of the forging die. The surplus material is driven out of the die through the flash land, thus the design of the flash land has a major influence on the filling of the die. All dimensions of the flash land are typically fixed during the manufacturing process of the die and can not be changed within the forging process. By use of a moveable flash gap that can be actively changed during the forging process the material flow can be altered. This permits to improve the filling of the cavity. In this paper a moveable flash gap for a hot forging process is described and the influence of such a system on the filling of the die cavity is determined. This is done by a comparison to a conventional forging process with a fixed flash land. Furthermore, the results of experimental trials are compared to results of corresponding FEA simulations. Additionally, the influence of the initial billet temperature is investigated. Experimental trials showed that the moveable flash gap has a distinct influence on the material flow. The higher the flash ratio, the bigger is the influence of the moveable flash gap. The moveable flash gap is designed as a flash brake of a height of 2 mm. Its usage lead to differences in height of the parts up to 4.5 mm, which correspond to 16.6% of the parts volume, compared to parts forged with a fixed flash land. If the forging temperature is decreased from 1200°C to 1000°C, the influence of the moveable flash gap is reduced. The average differences in height are about 0.5 mm (about 3%).",
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T1 - Investigation of a moveable flash gap in hot forging

AU - Langner, Jan

AU - Stonis, Malte

AU - Behrens, Bernd Arno

N1 - Funding information: The research project “Mechanismen zur Steuerung einer variablen Gratbahn und deren Einfluss auf die verschleiß- und volumenschwankungsabhängige Formfüllung beim Gesenkschmieden” (DFG NI 1187/12-1) has been funded by the German Research Foundation (Deutsche Forschungsgemeinschaft—DFG). The authors thank the DFG for its support. The authors declare that they have no conflict of interest.

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N2 - The most common method of bulk forming processes is closed die forging with flash. In these processes a surplus of material is used to ensure a complete filling of the cavity of the forging die. The surplus material is driven out of the die through the flash land, thus the design of the flash land has a major influence on the filling of the die. All dimensions of the flash land are typically fixed during the manufacturing process of the die and can not be changed within the forging process. By use of a moveable flash gap that can be actively changed during the forging process the material flow can be altered. This permits to improve the filling of the cavity. In this paper a moveable flash gap for a hot forging process is described and the influence of such a system on the filling of the die cavity is determined. This is done by a comparison to a conventional forging process with a fixed flash land. Furthermore, the results of experimental trials are compared to results of corresponding FEA simulations. Additionally, the influence of the initial billet temperature is investigated. Experimental trials showed that the moveable flash gap has a distinct influence on the material flow. The higher the flash ratio, the bigger is the influence of the moveable flash gap. The moveable flash gap is designed as a flash brake of a height of 2 mm. Its usage lead to differences in height of the parts up to 4.5 mm, which correspond to 16.6% of the parts volume, compared to parts forged with a fixed flash land. If the forging temperature is decreased from 1200°C to 1000°C, the influence of the moveable flash gap is reduced. The average differences in height are about 0.5 mm (about 3%).

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KW - Die design

KW - FEA

KW - Flash gap

KW - Flash land

KW - Forging

KW - Material flow

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