Suttner S (2017)
Publication Type: Thesis
Publication year: 2017
Publisher: Meisenbach
Edited Volumes: Fertigungstechnik - Erlangen 306
DOI: 10.25593/978-3-87525-433-4
The use of light-weight materials, such as magnesium alloys, offers great potential in the area of sheet metal forming. In addition, the complex material behavior is to be modeled exactly in the process design. In the scope of the work, the stress statedependent material behavior of the magnesium alloy AZ31 B was investigated to improve the prediction accuracy of sheet metal forming processes. The focus of the investigations was the development, verification and validation of a novel material model for the consideration of anisotropic hardening at a forming temperature of 200° C. In order to determine the material characteristic under stretch forming, an innovative hydraulic bulge test (HB V) with online strain rate control by means of an
optical strain measurement system was implemented.
APA:
Suttner, S. (2017). Charakterisierung und Modellierung des spannungszustandsabhängigen Werkstoffverhaltens der Magnesiumlegierung AZ31B für die numerische Prozessauslegung (Dissertation).
MLA:
Suttner, Sebastian. Charakterisierung und Modellierung des spannungszustandsabhängigen Werkstoffverhaltens der Magnesiumlegierung AZ31B für die numerische Prozessauslegung. Dissertation, Meisenbach, 2017.
BibTeX: Download