Wild T, Merklein M (2023)
Publication Language: English
Publication Type: Conference contribution
Publication year: 2023
Publisher: Springer
Series: Lecture Notes in Production Engineering
City/Town: Cham
Pages Range: 670-679
Conference Proceedings Title: Production at the Leading Edge of Technology
ISBN: 9783031473937
DOI: 10.1007/978-3-031-47394-4_65
By using high-strength aluminum, weight savings can be achieved. However, limited formability of these alloys at room temperature is a challenging aspect regarding the manufacturing of components with filigree functional elements within sheet-bulk metal forming. So as to derive detailed process knowledge and to improve the achievable process results, forward extrusion of geared components made of EN AW 6082 sheets at room temperature is investigated within this work. Furthermore, robust large-scale industrial cold forming is a demanding task, as tool temperatures increase over time due to forming and frictional heat, leading to varying material and process properties. In order to determine measures for the compensation of these fluctuations, additional experiments are carried out with slightly increased tool temperatures. By analyzing workpiece and process related parameters for both sets of experiments, potential approaches to control the outcome of forming operations under variable conditions are discussed.
APA:
Wild, T., & Merklein, M. (2023). Investigation of the Influence of Slightly Increased Process Temperatures on the Extrusion of Functional Aluminum Components in Sheet-Bulk Metal Forming. In Thomas Bauernhansl, Alexander Verl, Mathias Liewald, Hans-Christian Möhring (Eds.), Production at the Leading Edge of Technology (pp. 670-679). Freudenstadt, DE: Cham: Springer.
MLA:
Wild, Thomas, and Marion Merklein. "Investigation of the Influence of Slightly Increased Process Temperatures on the Extrusion of Functional Aluminum Components in Sheet-Bulk Metal Forming." Proceedings of the Congress of the German Academic Association for Production Technology, Freudenstadt Ed. Thomas Bauernhansl, Alexander Verl, Mathias Liewald, Hans-Christian Möhring, Cham: Springer, 2023. 670-679.
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