2021
DOI: 10.1016/j.engstruct.2021.113369
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Fatigue behaviour of non-welded wrapped composite joints for steel hollow sections in axial load experiments

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Cited by 17 publications
(7 citation statements)
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“…showed to be superior vs. welded when subjected to axial tension loads which is the most critical for debonding [8]. Test at small-scale are done at two different load levels per joint type.…”
Section: Fatigue Endurance Of Wrapped Composite Jointsmentioning
confidence: 99%
“…showed to be superior vs. welded when subjected to axial tension loads which is the most critical for debonding [8]. Test at small-scale are done at two different load levels per joint type.…”
Section: Fatigue Endurance Of Wrapped Composite Jointsmentioning
confidence: 99%
“…A decreasing trend in fatigue lives with increasing mean stresses is observed under all weld conditions. A power law relation between the S and N f is assumed in line with Basquin equation and can be expressed as [26][27][28]:…”
Section: Mechanical Property Of the Jointmentioning
confidence: 99%
“…Fatigue of composites has presented researchers and designers with considerable modelling difficulties. Different from the fatigue damage of metal structure with the nucleation and propagation of one or several cracks, composite parts get global damage fields and present distinctly different, interacting damage types (including transverse cracks, delamination, debonding, edge effects, thickness and staking sequence) increases with the number of loading cycles, which hampers modelling [78,79].…”
Section: Fatigue Reliability On Bladesmentioning
confidence: 99%