Neuwirth, Manuel ; Mester, K. ; Weiss, M. ; Bruder, E. (2017):
Material characterization in flexible flow splitting.
In: Materials Science & Engineering Technology, 48 (1), pp. 53 - 60. ISSN 1521-4052,
[Article]
Abstract
There is a significant demand on flexibility in production processes, regarding freedom of part design and freedom of process design. The forming process linear flow splitting satisfies these demands by enriching the semi-finished product sheet metal with geometric features. Additional flanges and bifurcations in integral style expand the range of component applications. By the further development of flexible flow splitting, these flanges can now be produced along a non-linear bifurcation line and the application can be expanded on products with varying cross-section. The continuous steady-state process linear flow splitting is transferred into a flexible forming process that is characterized by non-steady states and measurands. Methods of materials characterization are applied to investigate, if those non-steady properties, that are visible in process characteristics and part geometry, can also be identified in the mechanical behavior.
| Item Type: | Article |
|---|---|
| Erschienen: | 2017 |
| Creators: | Neuwirth, Manuel ; Mester, K. ; Weiss, M. ; Bruder, E. |
| Title: | Material characterization in flexible flow splitting |
| Language: | English |
| Abstract: | There is a significant demand on flexibility in production processes, regarding freedom of part design and freedom of process design. The forming process linear flow splitting satisfies these demands by enriching the semi-finished product sheet metal with geometric features. Additional flanges and bifurcations in integral style expand the range of component applications. By the further development of flexible flow splitting, these flanges can now be produced along a non-linear bifurcation line and the application can be expanded on products with varying cross-section. The continuous steady-state process linear flow splitting is transferred into a flexible forming process that is characterized by non-steady states and measurands. Methods of materials characterization are applied to investigate, if those non-steady properties, that are visible in process characteristics and part geometry, can also be identified in the mechanical behavior. |
| Journal or Publication Title: | Materials Science & Engineering Technology |
| Volume of the journal: | 48 |
| Issue Number: | 1 |
| Uncontrolled Keywords: | Flexible flow splitting, material characterization, severe deformation, texture analysis, hardness measurement |
| Divisions: | 11 Department of Materials and Earth Sciences > Material Science 11 Department of Materials and Earth Sciences > Material Science > Physical Metallurgy 16 Department of Mechanical Engineering 16 Department of Mechanical Engineering > Institut für Produktionstechnik und Umformmaschinen (PtU) DFG-Collaborative Research Centres (incl. Transregio) DFG-Collaborative Research Centres (incl. Transregio) > Collaborative Research Centres DFG-Collaborative Research Centres (incl. Transregio) > Collaborative Research Centres > CRC 666: Integral Sheet Metal Design with Higher Order Bifurcations 11 Department of Materials and Earth Sciences |
| Date Deposited: | 04 May 2017 06:12 |
| URL / URN: | http://onlinelibrary.wiley.com/doi/10.1002/mawe.201600734/ab... |
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