Moisture absorption and cyclic absorption–desorption characters of fibre-reinforced epoxy composites

In this study, the temperature effects on moisture diffusion of epoxy resin and its glass/carbon fibre-reinforced epoxy composites in distilled water were tested. In 70 °C, their diffusion coefficients were found 20.9 times, 16.5 times and 29.5 times higher than those in room temperature (25 °C); me...

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Bibliographic Details
Published in:Journal of materials science 2019-06, Vol.54 (11), p.8289-8301
Main Authors: Gao, Chaogan, Zhou, Chuwei
Format: Article
Language:English
Subjects:
Absorption
Analysis
Carbon fiber reinforced plastics
Carbon-epoxy composites
Characterization and Evaluation of Materials
Chemistry and Materials Science
Classical Mechanics
Composite materials
Composites
Crystallography and Scattering Methods
Desorption
Diffusion coefficient
Diffusion effects
Distilled water
Epoxy resins
Fiber composites
Fiber reinforced polymers
Flexural strength
Glass fiber reinforced plastics
Laws, regulations and rules
Materials Science
Mathematical models
Moisture
Moisture absorption
Polymer matrix composites
Polymer Sciences
Room temperature
Solid Mechanics
Temperature effects
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Summary:In this study, the temperature effects on moisture diffusion of epoxy resin and its glass/carbon fibre-reinforced epoxy composites in distilled water were tested. In 70 °C, their diffusion coefficients were found 20.9 times, 16.5 times and 29.5 times higher than those in room temperature (25 °C); meanwhile, their saturated moisture contents were measured increased by 1.68 times, 2.39 times and 2.55 times, respectively. Furthermore, a cyclic moisture absorption–desorption experiment of composite materials was designed and implemented. The results revealed that moisture weight gain is no longer well described by Fick’s law during the second and the third cycle of moisture absorption processes, e.g., moisture diffusion coefficients in these two periods are obviously higher and lower than the predictions by Fick’s law during the first half and second half of moisture absorption processes. A flux-dependent moisture diffusion model proposed represents this phenomenon. In this model, moisture diffusion coefficient is formulated exponentially depending upon water flux. Flexural strength degenerations of the bulk epoxy and composite materials were tested corresponding to saturated state and re-dried state of per cycle, after three moisture absorption–desorption cycles, the dry state strength retention rates of bulk epoxy, UD-GFRP and UD-CFRP are 93, 79 and 80%, and in wet state these rates decrease to 53, 48 and 78%, respectively.
ISSN:0022-2461
1573-4803
DOI:10.1007/s10853-019-03399-7