Experimental and Numerical Investigation of the Forming Zone in Dieless Wire Drawing Process of Thin Biometallic Wires
Research output: Contributions to collected editions/works › Article in conference proceedings › Research › peer-review
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Proceedings of the 14th International Conference on the Technology of Plasticity - Current Trends in the Technology of Plasticity - ICTP 2023 - Volume 1. ed. / Katia Mocellin; Pierre-Olivier Bouchard; Régis Bigot; Tudor Balan. Vol. Volume 1 Springer Science and Business Media Deutschland GmbH, 2024. p. 479-490 (Lecture Notes in Mechanical Engineering).
Research output: Contributions to collected editions/works › Article in conference proceedings › Research › peer-review
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TY - CHAP
T1 - Experimental and Numerical Investigation of the Forming Zone in Dieless Wire Drawing Process of Thin Biometallic Wires
AU - Braatz, Merle
AU - Bohlen, Jan
AU - Ben Khalifa, Noomane
N1 - Publisher Copyright: © 2024, The Author(s), under exclusive license to Springer Nature Switzerland AG.
PY - 2024
Y1 - 2024
N2 - The influence of the dieless wire drawing process parameters on the forming zone of magnesium- and zinc-based wires are investigated. For this purpose, a numerical thermo-mechanical finite element model of the dieless wire drawing process is developed. For the validation of the numerical model and for experimental investigation of the forming zone, experiments are carried out using a flexible wire drawing setup with the same process parameters as for the numerical model for selected magnesium- and zinc-based alloys. The results show that reduction in cross-sectional area of up to 30% is possible for magnesium-based wires. Furthermore, a localization of the forming zone is essential for feasible parameter settings and high diameter reductions in one drawing pass. In addition, the length of the forming zone itself can be influenced not only by the material and the process temperature, but also by the process speeds.
AB - The influence of the dieless wire drawing process parameters on the forming zone of magnesium- and zinc-based wires are investigated. For this purpose, a numerical thermo-mechanical finite element model of the dieless wire drawing process is developed. For the validation of the numerical model and for experimental investigation of the forming zone, experiments are carried out using a flexible wire drawing setup with the same process parameters as for the numerical model for selected magnesium- and zinc-based alloys. The results show that reduction in cross-sectional area of up to 30% is possible for magnesium-based wires. Furthermore, a localization of the forming zone is essential for feasible parameter settings and high diameter reductions in one drawing pass. In addition, the length of the forming zone itself can be influenced not only by the material and the process temperature, but also by the process speeds.
KW - dieless wire drawing
KW - forming zone
KW - magnesium
KW - zinc
KW - Engineering
UR - http://www.scopus.com/inward/record.url?scp=85171999748&partnerID=8YFLogxK
UR - https://www.mendeley.com/catalogue/34399d9f-c212-3c7e-af19-9edbe5c14d9a/
U2 - 10.1007/978-3-031-41023-9_49
DO - 10.1007/978-3-031-41023-9_49
M3 - Article in conference proceedings
AN - SCOPUS:85171999748
SN - 978-3-031-41022-2
VL - Volume 1
T3 - Lecture Notes in Mechanical Engineering
SP - 479
EP - 490
BT - Proceedings of the 14th International Conference on the Technology of Plasticity - Current Trends in the Technology of Plasticity - ICTP 2023 - Volume 1
A2 - Mocellin, Katia
A2 - Bouchard, Pierre-Olivier
A2 - Bigot, Régis
A2 - Balan, Tudor
PB - Springer Science and Business Media Deutschland GmbH
T2 - 14th International Conference on Technology of Plasticity, ICTP 2023
Y2 - 24 September 2023 through 29 September 2023
ER -