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2024 | OriginalPaper | Chapter

Hot Rolling Modelling: Optimization of Trimmed Area Based on Crocodiling and Edge Cracking Simulations

Authors : Laurent Nguyen, Alexandre Barthelemy, Anthony Harrup

Published in: Proceedings of the 14th International Conference on the Technology of Plasticity - Current Trends in the Technology of Plasticity

Publisher: Springer Nature Switzerland

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Abstract

This chapter delves into the optimization of aluminium slab rolling processes, focusing on reducing defects such as crocodiling and edge cracking. It begins by discussing the main objective of the rolling process and the significance of numerical simulations in optimizing initial shapes and pass schedules. The chapter then explores material behavior laws, specifically the EVP and ST models, which are crucial for simulating deformations at high temperatures and strain rates. Crocodiling and edge cracking are addressed through detailed numerical simulations, including a 2D-plain strain FEM model for crocodiling and a 3D stationary thermomechanical FEM model for edge cracking. The chapter also introduces the Hosford-Coulomb damage model to predict fracture initiation, highlighting the potential for enhanced predictivity in hot rolling processes. Overall, the chapter offers a comprehensive approach to optimizing aluminium slab rolling, combining advanced numerical techniques with practical applications to reduce defects and improve overall efficiency.
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previous chapter The ERW Tube Cold Roll Forming Simulation with Different Cage Roll Arrangement and Fin-Pass Design
next chapter A Low Force Extrusion Technique for Producing Wide-Thin Aluminium Panels
Literature
1.
Hove, I.H., Andersson, B.: Formation of edge cracks during hot rolling of AA5182. In: C. Bickert et al. (eds.) Light Metals Processing and Applications: Proceedings of the International Symposium on Light Metals Processings and Applications, pp. 473–482. The Canadian Institute of Mining, Metallurgy and Petroleum, Montreal (1993)
2.
Burman, N.M., Thomson, P.F.: Edge cracking and profile of hot-rolled aluminium slabs. J. Mech. Work. Technol. 13(2), 205–217 (1986)CrossRef
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Hacquin, A. : Modélisation thermomécanique tridimensionnelle du laminage couplage bande/cylindres. PhD thesis, Ecole Nationale Supérieure des Mines de Paris (1996)
4.
Tanaka, M., Ono, S., Tsuneno, M.: Factors contributing to crushing of voids during forging. J. Jpn. Soc. Technol. Plast. 27(306), 852–859 (1987)
5.
Schey, J.A.: Fracture in rolling processes. J. Appl. Metalwork. 1(2), 48–59 (1980)CrossRef
6.
Mohr, D., Marcadet, S.J.: Micromechanically-motivated phenomenological Hosford-Coulomb model. Int. J. Solids Struct. 67–68, 40–55 (2015)
7.
Pandya, K.S., Roth, C.C., Mohr, D.: Strain rate and temperature dependent fracture of aluminum alloy 7075: experiments and neural network modeling. Int. J. Plast. 135, 102788 (2020)CrossRef
Metadata
Title
Hot Rolling Modelling: Optimization of Trimmed Area Based on Crocodiling and Edge Cracking Simulations
Authors
Laurent Nguyen
Alexandre Barthelemy
Anthony Harrup
Copyright Year
2024
Book
Proceedings of the 14th International Conference on the Technology of Plasticity - Current Trends in the Technology of Plasticity

Print ISBN: 978-3-031-41022-2

Electronic ISBN: 978-3-031-41023-9

Copyright Year: 2024

DOI
https://doi.org/10.1007/978-3-031-41023-9_36

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