Please use this identifier to cite or link to this item: http://hdl.handle.net/10773/38136
Title: Numerical and experimental analysis of the anisotropy evolution in aluminium alloys processed by asymmetric rolling
Author: Vincze, Gabriela
Lopes, Augusto
Butuc, Marilena C.
Yánez, Jesús
Lopes, Diogo
Holz, Laura
Graça, Ana
Pereira, António B.
Keywords: Anisotropy
Texture
Aluminium alloys
Rolling
Visco-plastic self-consistent model
Issue Date: Sep-2022
Publisher: River Publishers
Abstract: One of the most important characteristics of the sheet metal is its anisotropy. Asymmetric rolling (ASR) shows to be an adequate process to change the material anisotropy by increasing the normal anisotropy and decreasing the planar anisotropy. In this work, it is analysed the relationship between anisotropy and texture evolution using experimental and numerical approaches. Experimentally, the texture is modified by rolling, involving symmetric (SR), asymmetric rolling continuous (ARC) and asymmetric reverse (ARR) routes and different reductions per pass. The numerical analysis was performed through the visco-plastic self-consistent model where two hardening laws were considered, namely the Voce-type (V) and the dislocation density-based model (DDR). The main objective of the numerical method was to test the performance of the VPSC model for large plastic deformation. The Lankford coefficients decrease in RD and increase in TD with the increase in the total thickness reduction. This trend observed experimentally is well captured by the VPSC model, however, in terms of R-value, an overestimation is observed in both cases with better results for Voce-type law.
Peer review: yes
URI: http://hdl.handle.net/10773/38136
DOI: 10.13052/ejcm2642-2085.3131
ISSN: 2642-2085
Appears in Collections:TEMA - Artigos
CICECO - Artigos
DEM - Artigos
DEMaC - Artigos

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