Experimental and analytical study of cracks under biaxial fatigue

Experimental and analytical study of cracks under biaxial fatigue

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Most mechanical components experience multi-axial cyclic loading conditions during service. Experimental analysis of fatigue cracks under such conditions is not easy and most works tend to focus more on the simpler but less realistic case of uni-axial loading. Consequently, there are many uncertain...

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Main Authors: M. Mokhtarishirazbad, P. Lopez-Crespo, B. Moreno, D. Camas, A. Lopez-Moreno, M. Zanganeh
Format: Article
Language:English
Published: Gruppo Italiano Frattura 2016-06-01
Series:Frattura ed Integrità Strutturale
Subjects:
Stress intensity factor
Biaxial fatigue
Mixed-mode
Crack opening displacement
Online Access:https://212.237.37.202/index.php/fis/article/view/1727
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spelling doaj-1ad4f6c0124f41f5ba3db57f7a087db82021-01-30T17:15:26ZengGruppo Italiano FratturaFrattura ed Integrità Strutturale1971-89932016-06-011037Experimental and analytical study of cracks under biaxial fatigueM. MokhtarishirazbadP. Lopez-CrespoB. MorenoD. CamasA. Lopez-MorenoM. Zanganeh Most mechanical components experience multi-axial cyclic loading conditions during service. Experimental analysis of fatigue cracks under such conditions is not easy and most works tend to focus more on the simpler but less realistic case of uni-axial loading. Consequently, there are many uncertainties related to the load sequence effect that are now well known and are not normally incorporated into the growth models. The current work presents a new methodology for evaluating overload effect in biaxial fatigue cracks. The methodology includes evaluation of mixed-mode (KI and KII) stress intensity factor and the Crack Opening Displacement for samples with and without overload cycle under biaxial loading. The methodology is tested under a range of crack lengths. All crack-tip information is obtained with a hybrid methodology that combines experimental full-field digital image correlation data and Williams' elastic model describing the crack-tip field. https://212.237.37.202/index.php/fis/article/view/1727Stress intensity factorBiaxial fatigueMixed-modeCrack opening displacement
collection DOAJ
language English
format Article
sources DOAJ
author M. Mokhtarishirazbad
P. Lopez-Crespo
B. Moreno
D. Camas
A. Lopez-Moreno
M. Zanganeh
spellingShingle M. Mokhtarishirazbad
P. Lopez-Crespo
B. Moreno
D. Camas
A. Lopez-Moreno
M. Zanganeh
Experimental and analytical study of cracks under biaxial fatigue
Frattura ed Integrità Strutturale
Stress intensity factor
Biaxial fatigue
Mixed-mode
Crack opening displacement
author_facet M. Mokhtarishirazbad
P. Lopez-Crespo
B. Moreno
D. Camas
A. Lopez-Moreno
M. Zanganeh
author_sort M. Mokhtarishirazbad
title Experimental and analytical study of cracks under biaxial fatigue
title_short Experimental and analytical study of cracks under biaxial fatigue
title_full Experimental and analytical study of cracks under biaxial fatigue
title_fullStr Experimental and analytical study of cracks under biaxial fatigue
title_full_unstemmed Experimental and analytical study of cracks under biaxial fatigue
title_sort experimental and analytical study of cracks under biaxial fatigue
publisher Gruppo Italiano Frattura
series Frattura ed Integrità Strutturale
issn 1971-8993
publishDate 2016-06-01
description Most mechanical components experience multi-axial cyclic loading conditions during service. Experimental analysis of fatigue cracks under such conditions is not easy and most works tend to focus more on the simpler but less realistic case of uni-axial loading. Consequently, there are many uncertainties related to the load sequence effect that are now well known and are not normally incorporated into the growth models. The current work presents a new methodology for evaluating overload effect in biaxial fatigue cracks. The methodology includes evaluation of mixed-mode (KI and KII) stress intensity factor and the Crack Opening Displacement for samples with and without overload cycle under biaxial loading. The methodology is tested under a range of crack lengths. All crack-tip information is obtained with a hybrid methodology that combines experimental full-field digital image correlation data and Williams' elastic model describing the crack-tip field.
topic Stress intensity factor
Biaxial fatigue
Mixed-mode
Crack opening displacement
url https://212.237.37.202/index.php/fis/article/view/1727
work_keys_str_mv AT mmokhtarishirazbad experimentalandanalyticalstudyofcracksunderbiaxialfatigue
AT plopezcrespo experimentalandanalyticalstudyofcracksunderbiaxialfatigue
AT bmoreno experimentalandanalyticalstudyofcracksunderbiaxialfatigue
AT dcamas experimentalandanalyticalstudyofcracksunderbiaxialfatigue
AT alopezmoreno experimentalandanalyticalstudyofcracksunderbiaxialfatigue
AT mzanganeh experimentalandanalyticalstudyofcracksunderbiaxialfatigue
_version_ 1724317804287492096

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