2021
DOI: 10.1016/j.indcrop.2021.113341
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Why cyclic hygrothermal ageing modifies the transverse mechanical properties of a unidirectional epoxy-flax fibres composite?

Abstract: The development of composites based on plant fibres has considerably grown in last decades; however, their high sensitivity to moisture limits their use in structural applications. The objective of this study is to determine and understand the impact of moisture variations during one-year cyclic hygrothermal ageing i.e. 52 cycles on the transverse properties of a unidirectional epoxy flax composite. A cycle consists of 3.5 days at 90% RH followed by 3.5 days at 40% RH. Compared to the studies usually carried o… Show more

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Cited by 19 publications
(9 citation statements)
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References 36 publications
(45 reference statements)
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“…The unaged FFRP composite appeared to show "cracks" along the flax fibers due to the formation process of the composite, where the cavities and lumens of the flax fibers are flattened to look like embedded cracks. 111 Consequently, stress concentration occurs at the cracks, and the prolonged action of moisture and degradation of the binder material in the fibers further promotes the rupture of the fiber portion along the lumen, resulting in a loss of tensile strength. After aging at 60 C for 2 weeks, the sample F I G U R E 1 3 SEM images of bending fractures of T700/TR1219B composites in different states.…”
Section: Static Mechanical Propertiesmentioning
confidence: 99%
“…The unaged FFRP composite appeared to show "cracks" along the flax fibers due to the formation process of the composite, where the cavities and lumens of the flax fibers are flattened to look like embedded cracks. 111 Consequently, stress concentration occurs at the cracks, and the prolonged action of moisture and degradation of the binder material in the fibers further promotes the rupture of the fiber portion along the lumen, resulting in a loss of tensile strength. After aging at 60 C for 2 weeks, the sample F I G U R E 1 3 SEM images of bending fractures of T700/TR1219B composites in different states.…”
Section: Static Mechanical Propertiesmentioning
confidence: 99%
“…This material showed moderate decreases in the mechanical performance (i.e., about -10% of the moduli and about -14% of the ultimate tensile stress) after 1 year of exposure and 52 cycles of aging. In another paper of the authors [24], they evaluated the effect of the same aging conditions on the composite transverse mechanical properties, showing noticeable decrements in both transverse tensile strength (i.e., about -20% after the first week of ageing) and modulus (i.e., about -18% already after the first week to reach about -45% after 1 year). These results were mainly ascribed to the plasticization of the epoxy matrix.…”
Section: Introductionmentioning
confidence: 99%
“…Furthermore, some research activities specifically evaluated the effects of a wet/dry cyclic aging on the mechanical performances of natural fiber composites [15,16], evidencing noticeable decrements in both strength and stiffness.…”
Section: Introductionmentioning
confidence: 99%