TY - JOUR
T1 - Failure strength of 7075-T6 aluminium alloy: integrating digital image and finite element analysis for static uniaxial and biaxial load scenarios
AU - Emmanuel, Ogunjobi Kehinde
AU - Nwawe Tchadeu, Richard
AU - Marashi Najafi, Fatemeh
AU - Madani, Seyed
AU - Chizari, Mahmoud
N1 - © 2024 by the author(s). Published by Minerva ASET, Devon, UK. This is an open access article distributed under the Creative Commons Attribution License, to view a copy of the license, see: https://creativecommons.org/licenses/by/4.0/
PY - 2024/11/6
Y1 - 2024/11/6
N2 - The objective of this study is to investigate the mechanical properties of 7075-T6 Aluminium (Al) alloy under both uniaxial and biaxial loads. The study will be conducted using a combination of experimental and numerical methods. The experimental method used is the digital image correlation (DIC) technique, which was utilized to capture the deformation and strain fields of the material specimen under tensile test. The tensile test can be significant due to the relation with the fatigue behaviour. Thus, a tensile machine was employed to apply uniaxial and biaxial loads on the sample. The strain and deformation distribution of the results was generated on the DIC and correlated software. The numerical method involved the use of a commercial finite element software to create a finite element model and simulate the mechanical behaviour of the material under the same loading conditions. The results obtained from the experimental and numerical methods were compared to validate the accuracy of the numerical model. The outcomes demonstrated that under uniaxial loading, localized necking and fracture were observed, while biaxial loading resulted in shear deformation and fracture. This research contributes to the development of more accurate models for predicting the mechanical behaviour of the model samples under different loading conditions.
AB - The objective of this study is to investigate the mechanical properties of 7075-T6 Aluminium (Al) alloy under both uniaxial and biaxial loads. The study will be conducted using a combination of experimental and numerical methods. The experimental method used is the digital image correlation (DIC) technique, which was utilized to capture the deformation and strain fields of the material specimen under tensile test. The tensile test can be significant due to the relation with the fatigue behaviour. Thus, a tensile machine was employed to apply uniaxial and biaxial loads on the sample. The strain and deformation distribution of the results was generated on the DIC and correlated software. The numerical method involved the use of a commercial finite element software to create a finite element model and simulate the mechanical behaviour of the material under the same loading conditions. The results obtained from the experimental and numerical methods were compared to validate the accuracy of the numerical model. The outcomes demonstrated that under uniaxial loading, localized necking and fracture were observed, while biaxial loading resulted in shear deformation and fracture. This research contributes to the development of more accurate models for predicting the mechanical behaviour of the model samples under different loading conditions.
KW - 7075‐T6 Aluminium alloy
KW - Uniaxial and biaxial loads
KW - Digital image correlation
U2 - 10.62676/jdaf.2024.2.2.20
DO - 10.62676/jdaf.2024.2.2.20
M3 - Article
VL - 2
SP - 13
EP - 21
JO - Journal of Design Against Fatigue
JF - Journal of Design Against Fatigue
IS - 1
ER -