Numerical and experimental investigations on the mechanical properties of milled specimens from an AA7020 tube
Reblitz J, Reuther F, Trân R, Kräusel V, Merklein M (2022)
Publication Language: English
Publication Status: Published
Publication Type: Book chapter / Article in edited volumes
Future Publication Type: Article in Edited Volumes
Publication year: 2022
Publisher: Trans Tech Publications Ltd.
Edited Volumes: Achievements and Trends in Material Forming
Series: Key Engineering Materials
Book Volume: 926
DOI: 10.4028/p-oxs247
Abstract
The reduction of weight is crucial in the automotive sector to reach a lower energy consumption and an increased range, especially for electrically powered vehicles. In this regard, body-in-white parts offer a high potential for the application of lightweight construction. The required weight savings can be achieved by implementing parts with a high strength-to-weight ratio. A promising approach is the combination of lightweight materials and lightweight design, which can be realized by tubular components made of high strength aluminum. Due to their structural stiffness and high crashworthiness, those structures are often used as safety-relevant car body components. However, the material characterization of tube profiles is a major challenge, which in turn impedes an accurate numerical simulation and precise process design. In contrast to flat semi-finished parts, various effects of the production process and the geometry, regarding the stress state under load, must be taken into account. For this purpose, adapted testing methods considering the geometrical and mechanical properties of the tubular parts have to be investigated, in order to generate an accurate material model and process design. Within this research work, tubular components made out of AA7020 in W-temper condition were used to analyze the mechanical properties. In this regard, several tensile specimens are milled from a tube, so they also have a curvature profile. The experimental tensile tests have been performed at different strain rates by using a universal testing machine from type Gleeble 3500. To ensure a proper measurement of the mechanical properties, the clamping jaws of the testing machine are adjusted to the curved samples. The investigated material parameters are subsequently transferred to an FE model with curved specimen to enable an accurate prediction of the forming behavior. In addition, an FE model of a flat tensile specimen was also created for comparison, in order to gain a profound knowledge regarding the influence of the geometric and mechanical properties of tubular components.
Authors with CRIS profile
Jonas Reblitz
Institute of Manufacturing Technology
Marion Merklein
Institute of Manufacturing Technology
Involved external institutions
Germany (DE)How to cite
APA:
Reblitz, J., Reuther, F., Trân, R., Kräusel, V., & Merklein, M. (2022). Numerical and experimental investigations on the mechanical properties of milled specimens from an AA7020 tube. In Achievements and Trends in Material Forming. Trans Tech Publications Ltd..
MLA:
Reblitz, Jonas, et al. "Numerical and experimental investigations on the mechanical properties of milled specimens from an AA7020 tube." Achievements and Trends in Material Forming. Trans Tech Publications Ltd., 2022.
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