Experimental and numerical study on mechanical properties of aluminum alloy under uniaxial tensile test

Experimental and numerical study on mechanical properties of aluminum alloy under uniaxial tensile test

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The main objective is to model the behavior of 7075 aluminum alloy and built an experimental database to identify the model parameters. The first part of the paper presents an experimental database on 7075 aluminum alloy. Thus, uniaxial tensile tests are carried in three loading directions relative...

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Main Authors: O. Daghfas, A. Znaidi, A. Ben Mohamed, R. Nasri
Format: Article
Language:English
Published: Gruppo Italiano Frattura 2017-01-01
Series:Frattura ed Integrità Strutturale
Subjects:
Aluminum alloy
Experimental tensile test
Identification
Lankford coefficient
Online Access:http://www.gruppofrattura.it/pdf/rivista/numero39/numero_39_art_24.pdf
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spelling doaj-a38822214afd46fe8ffe6e73b1146b5b2020-11-24T23:49:22ZengGruppo Italiano FratturaFrattura ed Integrità Strutturale1971-89931971-89932017-01-01113926327310.3221/IGF-ESIS.39.24Experimental and numerical study on mechanical properties of aluminum alloy under uniaxial tensile test O. Daghfas0A. Znaidi1A. Ben Mohamed2R. Nasri3University of Tunis Manar, National School of Engineers of Tunis, LR-MAI-ENIT BP37, 1002 TunisieUniversity of Tunis Manar, National School of Engineers of Tunis, LR-MAI-ENIT BP37, 1002 TunisieUniversity of Tunis Manar, National School of Engineers of Tunis, LR-MAI-ENIT BP37, 1002 TunisieUniversity of Tunis Manar, National School of Engineers of Tunis, LR-MAI-ENIT BP37, 1002 TunisieThe main objective is to model the behavior of 7075 aluminum alloy and built an experimental database to identify the model parameters. The first part of the paper presents an experimental database on 7075 aluminum alloy. Thus, uniaxial tensile tests are carried in three loading directions relative to the rolling direction, knowing that the fatigue of aircraft structures is traditionally managed based on the assumption of uniaxial loads. From experimental database, the mechanical properties are extracted, particularly the various fractures owing to pronounced anisotropy relating to material. In second part, plastic anisotropy is then modeled using the identification strategy which depends on yield criteria, hardening law and evolution law. In third part, a comparison with experimental data shows that behavior model can successfully describe the anisotropy of the Lankford coefficient.http://www.gruppofrattura.it/pdf/rivista/numero39/numero_39_art_24.pdfAluminum alloyExperimental tensile testIdentificationLankford coefficient
collection DOAJ
language English
format Article
sources DOAJ
author O. Daghfas
A. Znaidi
A. Ben Mohamed
R. Nasri
spellingShingle O. Daghfas
A. Znaidi
A. Ben Mohamed
R. Nasri
Experimental and numerical study on mechanical properties of aluminum alloy under uniaxial tensile test
Frattura ed Integrità Strutturale
Aluminum alloy
Experimental tensile test
Identification
Lankford coefficient
author_facet O. Daghfas
A. Znaidi
A. Ben Mohamed
R. Nasri
author_sort O. Daghfas
title Experimental and numerical study on mechanical properties of aluminum alloy under uniaxial tensile test
title_short Experimental and numerical study on mechanical properties of aluminum alloy under uniaxial tensile test
title_full Experimental and numerical study on mechanical properties of aluminum alloy under uniaxial tensile test
title_fullStr Experimental and numerical study on mechanical properties of aluminum alloy under uniaxial tensile test
title_full_unstemmed Experimental and numerical study on mechanical properties of aluminum alloy under uniaxial tensile test
title_sort experimental and numerical study on mechanical properties of aluminum alloy under uniaxial tensile test
publisher Gruppo Italiano Frattura
series Frattura ed Integrità Strutturale
issn 1971-8993
1971-8993
publishDate 2017-01-01
description The main objective is to model the behavior of 7075 aluminum alloy and built an experimental database to identify the model parameters. The first part of the paper presents an experimental database on 7075 aluminum alloy. Thus, uniaxial tensile tests are carried in three loading directions relative to the rolling direction, knowing that the fatigue of aircraft structures is traditionally managed based on the assumption of uniaxial loads. From experimental database, the mechanical properties are extracted, particularly the various fractures owing to pronounced anisotropy relating to material. In second part, plastic anisotropy is then modeled using the identification strategy which depends on yield criteria, hardening law and evolution law. In third part, a comparison with experimental data shows that behavior model can successfully describe the anisotropy of the Lankford coefficient.
topic Aluminum alloy
Experimental tensile test
Identification
Lankford coefficient
url http://www.gruppofrattura.it/pdf/rivista/numero39/numero_39_art_24.pdf
work_keys_str_mv AT odaghfas experimentalandnumericalstudyonmechanicalpropertiesofaluminumalloyunderuniaxialtensiletest
AT aznaidi experimentalandnumericalstudyonmechanicalpropertiesofaluminumalloyunderuniaxialtensiletest
AT abenmohamed experimentalandnumericalstudyonmechanicalpropertiesofaluminumalloyunderuniaxialtensiletest
AT rnasri experimentalandnumericalstudyonmechanicalpropertiesofaluminumalloyunderuniaxialtensiletest
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