Klaus K (2015)
Publication Type: Thesis
Publication year: 2015
Publisher: Meisenbach
Edited Volumes: Fertigungstechnik - Erlangen 268
DOI: 10.25593/978-3-87525-391-7
In the conventional sheet metal forming aluminum alloys exhibit compared with steel material-specific forming limits. This book shows how the use of an intermediate heat treatment allows an increase in the capability of forming of the selected naturally hardened aluminum alloy AA5182. The intermediate heat treatment in this case represents a novel process technology and is carried out using two different heating strategies, the global and the local induction heating furnace, with respect to the series-production of chassis components. The aluminum blank is pre-strained during an initial cold-forming step, then heat treated and then drawn to its final geometry at room temperature. The work provides information on the impact of heat treatment on the resulting material and forming properties based on different input parameters. In addition to the definition of a material-oriented process window, the reader is presented a method approach to take account of the material properties achieved in industrial FE simulation.
APA:
Klaus, K. (2015). Erstellung eines Werkstofforientierten Fertigungsprozessfensters zur Steigerung des Formgebungsvermögens von Aluminiumlegierungen unter Anwendung einer zwischengeschalteten Wärmebehandlung (Dissertation).
MLA:
Klaus, Kathleen. Erstellung eines Werkstofforientierten Fertigungsprozessfensters zur Steigerung des Formgebungsvermögens von Aluminiumlegierungen unter Anwendung einer zwischengeschalteten Wärmebehandlung. Dissertation, Meisenbach, 2015.
BibTeX: Download