Szczegóły publikacji

Opis bibliograficzny

Multi-level modelling of mechanical anisotropy of commercial pure aluminium plate: crystal plasticity models, advanced yield functions and parameter identification / K. Zhang, B. Holmedal, O. S. Hopperstad, S. Dumoulin, J. GAWĄD, A. Van Bael, P. Van Houtte // International Journal of Plasticity ; ISSN 0749-6419. — 2015 — vol. 66 spec. iss., s. 3–30. — Bibliogr. s. 28–30, Abstr. — J. Gawąd – dod. afiliacja: KU Leuven

Autorzy (7)

Zhang K.
Holmedal Bjorn
Hopperstad O. S.
Dumoulin S.
AGHGawąd Jerzy
Van Bael A.
Van Houtte P.

Słowa kluczowe

anisotropic material crystal plasticity yield condition analytic functions multi-level modelling

Dane bibliometryczne

ID BaDAP	87959
Data dodania do BaDAP	2015-02-23
Tekst źródłowy	URL
DOI	10.1016/j.ijplas.2014.02.003
Rok publikacji	2015
Typ publikacji	artykuł w czasopiśmie
Otwarty dostęp
Czasopismo/seria	International Journal of Plasticity

Abstract

The mechanical anisotropy of an AA1050 aluminium plate is studied by the use of five crystal plasticity models and two advanced yield functions. In-plane uniaxial tension properties of the plate were predicted by the full-constraint Taylor model, the advanced Lamel model (Van Houtte et al., 2005) and a modified version of this model (Manik and Holmedal, 2013), the viscoplastic self-consistent model and a crystal plasticity finite element method (CPFEM). Results are compared with data from tensile tests at every 15 from the rolling direction (RD) to the transverse direction (TD) in the plate. Furthermore, all the models, except CPFEM, were used to provide stress points in the five-dimensional deviatoric stress space at yielding for 201 plastic strain-rate directions. The Facet yield surface was calibrated using these 201 stress points and compared to in-plane yield loci and-the planar anisotropy which were calculated by the crystal plasticity models. The anisotropic yield function Yld2004-18p (Barlat et al., 2005) was calibrated by three methods: using uniaxial tension data, using the 201 virtual yield points in stress space, and using a combination of experimental data and virtual yield points (i.e. a hybrid method). Optimal yield-surface exponents were found for each of the crystal plasticity models, based on calibration to calculated stress points at yielding for a random texture, and used in the latter two calibration methods. It is found that the last hybrid calibration method can capture the experimental results and at the same time ensure a good fit to the anisotropy in the full stress space predicted by the crystal plasticity models. (C) 2014 Elsevier Ltd. All rights reserved.

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