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Effect of actual and accelerated ageing on microstructure evolution and mechanical properties of a 2024-T351 aluminium alloy

2017; Elsevier BV; Volume: 107; Linguagem: Inglês

10.1016/j.ijfatigue.2017.10.015

1879-3452

M. Prudhomme, Frédérique Billy, Joël Alexis, Guillaume Benoît, F. Hamon, Céline Larignon, G. Odemer, Christine Blanc, Gilbert Hénaff,

Fatigue and fracture mechanics

This paper presents an investigation on the effects of ageing on the microstructure and the corresponding physical and mechanical properties of a 2024 aluminium alloy used in a civil transport aircraft wing structure in order to assess the residual resistance of the end of a service life. More precisely, heat treatments are applied in order to simulate thermal ageing actually endured by the structure during service. The results of characterisation of microstructural, physical and mechanical properties are compared not only to the data obtained on a pristine alloy, but also to the results obtained on coupons of a similar alloy coming from the teardown of an A320 aircraft using the same experimental procedure. The main findings are that, during a service life, no significant modification in fatigue resistance is noticed despite of changes in the precipitation structure.