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Weld residual stress effects on fatigue crack growth behaviour of aluminium alloy 2024-T351

Liljedahl, C. D. M.; Brouard, J.; Zanellato, O.; Lin, J.; Tan, M. L.; Ganguly, S.; Irving, P. E.; Fitzpatrick, M. E.; Zhang, X. and Edwards, L. (2009). Weld residual stress effects on fatigue crack growth behaviour of aluminium alloy 2024-T351. International Journal of Fatigue, 31(6) pp. 1081–1088.

DOI (Digital Object Identifier) Link: http://dx.doi.org/10.1016/j.ijfatigue.2008.05.008
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Abstract

The interaction between residual stress and fatigue crack growth rate has been investigated in middle tension and compact tension specimens machined from a variable polarity plasma arc welded aluminium alloy 2024-T351 plate. The specimens were tested at three levels of applied constant stress intensity factor range. Crack closure was continuously monitored using an eddy current transducer and the residual stresses were measured with neutron diffraction. The effect of the residual stresses on the fatigue crack behaviour was modelled for both specimen geometries using two approaches: a crack closure approach where the effective stress intensity factor was computed; and a residual stress approach where the effect of the residual stresses on the stress ratio was considered. Good correlation between the experimental results and the predictions were found for the effective stress intensity factor approach at a high stress intensity factor range whereas the residual stress approach yielded good predictions at low and moderate stress intensity factor ranges. In particular, the residual stresses accelerated the fatigue crack growth rate in the middle tension specimen whereas they decelerated the growth rate in the compact tension sample, demonstrating the importance of accurately evaluating the residual stresses in welded specimens which will be used to produce damage tolerance design data.

Item Type: Journal Article
Copyright Holders: 2008 Elsevier Ltd.
ISSN: 0142-1123
Academic Unit/Department: Mathematics, Computing and Technology > Engineering & Innovation
Item ID: 15825
Depositing User: Michael E. Fitzpatrick
Date Deposited: 06 May 2009 08:51
Last Modified: 11 Dec 2012 09:39
URI: http://oro.open.ac.uk/id/eprint/15825
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