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A new model for FLD prediction based on advanced constitutive equations
Title
A new model for FLD prediction based on advanced constitutive equations
Type
Article in International Scientific Journal
Year
2009
Authors
Marilena Carmen Butuc
(Author)
FEUP
Frederic Barlat
(Author)
Other
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José J. Gracio
(Author)
Other
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Augusto Barata da Rocha
(Author)
FEUP
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Journal
Title:
International Journal of Material FormingImported from Authenticus
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Pages: 191-204
ISSN:
1960-6206
Publisher:
Springer Nature
Indexing
Scientific classification
FOS:
Engineering and technology > Other engineering and technologies
CORDIS:
Technological sciences
Other information
Authenticus ID:
P-003-3GK
Abstract (EN):
An advanced sheet metal forming limit model is
developed. Using the Marciniak-Kuczinsky analysis, this
approach intends to join advantages of physics-based
aspects of plasticity with advantages of phenomenological
material description. It aims thus at connecting the most
advanced physically-based hardening model accounting for
the evolution of the anisotropic work hardening induced by
the microstructural evolution at large strains of Teodosiu
and Hu (1995) with the advanced phenomenological
anisotropic yield criterion Yld2000-2d (Barlat et al. Int J
Plast 19:1297–1319, 2003). Two deep-drawing quality
sheet metals are selected: a bake-hardening steel (BH) and
AA6016-T4 aluminium alloy. Linear and complex strain
paths are taken into account. By comparing the simulated
and experimental results the model is validated.
Language:
English
Type (Professor's evaluation):
Scientific
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