Experimental and Numerical Study of Fracture Behavior under Mixed-Mode of Al-Alloy AA3003 Not Welded and Welded by FSW Process

This study presents an experimental and computational analysis of fracture under mixed-mode conditions in aluminum alloy AA3003 using the Compact Tension Shear CTS specimen, both not welded and Friction stir welded. Mixed-mode fracture experiments were performed using the CTS specimen and an ARCAN l...

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Veröffentlicht in:	Annales de chimie (Paris. 1914) 2022-06, Vol.46 (3), p.109-115
Hauptverfasser:	Mebarki, Hichem, Kebir, Tayeb, Benguediab, Mohamed, Fekirini, Hamida, Bouchouicha, Benattou, Lebon, Frédéric
Format:	Artikel
Sprache:	eng
Schlagworte:	Alloys Aluminum alloys Aluminum base alloys Compact tension Crack propagation Fracture mechanics Friction stir welding Friction welding Geometry Linear elastic fracture mechanics Load Mathematical analysis Mechanical properties Mechanics Physics Research methodology Solid mechanics Stress intensity factors Tension tests Yield stress
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container_title	Annales de chimie (Paris. 1914)
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creator	Mebarki, Hichem Kebir, Tayeb Benguediab, Mohamed Fekirini, Hamida Bouchouicha, Benattou Lebon, Frédéric
description	This study presents an experimental and computational analysis of fracture under mixed-mode conditions in aluminum alloy AA3003 using the Compact Tension Shear CTS specimen, both not welded and Friction stir welded. Mixed-mode fracture experiments were performed using the CTS specimen and an ARCAN loading device based on Richard's principle suitable for mixed-mode. The approach of linear elastic fracture mechanics allows for a better understanding of mixed-mode failure and the evaluation of the stress intensity parameters KI and KII. The variation of the stress intensity factor KI, KII is influenced by the pre-cracks length. The comparison between experimental results and the numerical results of simulation shows that there is a good agreement between these results.
doi_str_mv	10.18280/acsm.460301
format	Article
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Mixed-mode fracture experiments were performed using the CTS specimen and an ARCAN loading device based on Richard's principle suitable for mixed-mode. The approach of linear elastic fracture mechanics allows for a better understanding of mixed-mode failure and the evaluation of the stress intensity parameters KI and KII. The variation of the stress intensity factor KI, KII is influenced by the pre-cracks length. 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source	Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects	Alloys Aluminum alloys Aluminum base alloys Compact tension Crack propagation Fracture mechanics Friction stir welding Friction welding Geometry Linear elastic fracture mechanics Load Mathematical analysis Mechanical properties Mechanics Physics Research methodology Solid mechanics Stress intensity factors Tension tests Yield stress
title	Experimental and Numerical Study of Fracture Behavior under Mixed-Mode of Al-Alloy AA3003 Not Welded and Welded by FSW Process
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