2018
DOI: 10.1002/adv.22168
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Dependance of stress ratio on the Mode I fatigue delamination growth in woven carbon–epoxy composites

Abstract: This study analyzes crack growth behavior of woven carbon fiber reinforced plastics under tension–tension fatigue varying the stress ratio (R). The composite studied here is 3K‐70‐P carbon fiber plain weave with EPOLAM 2015® epoxy resin, manufactured by vacuum bagging procedure. The modified París’ law for composites is used to estimate the delamination crack growth (da/dN) in terms of interlaminar fracture toughness ratio (Gmax/GIC). Delamination's dependence on R factor is discussed, as crack growth rate inc… Show more

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“…where 𝜎 is the maximum traction of the affected element. In this study, the modified Paris' law was used accounting only for 𝐺 , which has also been used in works of other authors [31][32][33]. The fatigue crack growth model has been fully validated upon the same experimental parameters (stress ratio, max.…”
Section: Fatigue Crack Growth Modelmentioning
confidence: 99%
“…where 𝜎 is the maximum traction of the affected element. In this study, the modified Paris' law was used accounting only for 𝐺 , which has also been used in works of other authors [31][32][33]. The fatigue crack growth model has been fully validated upon the same experimental parameters (stress ratio, max.…”
Section: Fatigue Crack Growth Modelmentioning
confidence: 99%