Experiments and model predictions for fatigue crack propagation in riveted lap‐joints with multiple site damage |
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| Authors: | R Galatolo R Lazzeri |
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| Affiliation: | Department of Civil and Industrial Engineering, University of Pisa, Pisa, Italy |
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| Abstract: | In this paper, the growth of long fatigue cracks up to failure in aircraft components is studied. A deterministic model is presented, able to simulate the growth of fatigue through cracks located at rivet holes in lap‐joint panels. It also includes criteria to assess the link‐up of collinear adjacent cracks in a MSD scenario. To validate the model, a fatigue test campaign was carried out on riveted lap‐joint specimens in order to produce experimental crack growth and link‐up data. Accurate measurements of naturally occurred surface cracks were automatically performed by the Image Analysis technique, thus allowing the tests to run 24 h a day. The comparison between experimental tests and numerical simulations is good, thus confirming the model as a useful tool for the assessment of fatigue life of aircraft riveted joints. |
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| Keywords: | crack interaction fatigue crack growth image processing numerical modelling riveted joints 2024‐T3 aluminium alloy |
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