Greg Welsh scite author profile

Microstructurally small fatigue crack (MSFC) formation includes stages of incubation, nucleation and microstructurally small propagation. In AA 7075-T651, the fracture of Al 7 Cu 2 Fe constituent particles is the major incubation source. In experiments, it has been observed that only a small percentage of these Fe-bearing particles crack in a highly stressed volume. The work presented here addresses the identification of the particles prone to cracking and the prediction of particle cracking frequency, given a distribution of particles and crystallographic texture in such a volume. Three-dimensional elasto-viscoplastic finite element analyses are performed to develop a response surface for the tensile stress in the particle as a function of the strain level surrounding the particle, parent grain orientation and particle aspect ratio. A technique for estimating particle strength from fracture toughness, particle size and intrinsic flaw size is developed. Particle cracking is then determined by comparing particle stress and strength. The frequency of particle cracking is then predicted from sampling measured distributions of grain orientation, particle aspect ratio and size. Good agreement is found between the predicted frequency of particle cracking and two preliminary validation experiments. An estimate of particle cracking frequency is important for simulating the next

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Observations of fatigue crack initiation in 7075-T651

Payne

Welsh

Christ³

et al. 2010

International Journal of Fatigue

114

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Sensors for monitoring early stage fatigue cracking

Papazian

Nardiello

Silberstein

et al. 2007

International Journal of Fatigue

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A structural integrity prognosis system

Papazian

Anagnostou

Engel

et al. 2009

Engineering Fracture Mechanics

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Greg Welsh

A geometric approach to modeling microstructurally small fatigue crack formation: I. Probabilistic simulation of constituent particle cracking in AA 7075-T651

Observations of fatigue crack initiation in 7075-T651

Sensors for monitoring early stage fatigue cracking

A structural integrity prognosis system

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