Moisture uptake and resulting mechanical response of bio-based composites. II. composites

The durability of entirely bio‐based composites with respect to the exposure to elevated humidity was evaluated. Different combinations of bio‐based resins (Tribest, EpoBioX, Envirez) and cellulosic fibers (flax and regenerated cellulose fiber rovings and fabrics) were used to manufacture unidirecti...

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Bibliographic Details
Published in:Polymer composites 2015-08, Vol.36 (8), p.1510-1519
Main Authors: Doroudgarian, Newsha, Pupure, Liva, Joffe, Roberts
Format: Article
Language:English
Subjects:
Absorption experiments
Apparent diffusion coefficient
Bio-based composites
Cellulose Fibers
Cellulosic reinforcements
Chemical Treatment
Composites
Durability
Epoxy resins
Fiber reinforced plastics
Fibers
Glass fiber reinforced composite
Humidity
Influence of humidity
Laminated composites
Laminates
Moisture
Natural fibers
Polymer matrix composites
Polymers
Properties of composites
Regenerated cellulose
Reinforcement
Resins
Surface diffusion
Uptakes
Water absorption
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Summary:The durability of entirely bio‐based composites with respect to the exposure to elevated humidity was evaluated. Different combinations of bio‐based resins (Tribest, EpoBioX, Envirez) and cellulosic fibers (flax and regenerated cellulose fiber rovings and fabrics) were used to manufacture unidirectional and cross‐ply composite laminates. Water absorption experiments were performed at various humidity levels (41%, 70%, and 98%) to measure apparent diffusion coefficient and moisture content at saturation. Effect of chemical treatment (alkali and silane) of fibers as protection against moisture was also studied. However, fiber treatment did not show any significant improvement and in some cases the performance of the composites with treated fibers was lower than those with untreated reinforcement. The comparison of results for neat resins and composites showed that moisture uptake in the studied composites is primarily due to cellulosic reinforcement. Tensile properties of composites as received (RH = 24%) and conditioned (RH = 41%, 70%, and 98%) were measured in order to estimate the influence of humidity on behavior of these materials. Results were compared with data for glass fiber reinforced composite, as a reference material. Previous results from study of unreinforced polymers showed that resins were resistant to moisture uptake. Knowing that moisture sorption is primarily dominated by natural fibers, the results showed that some of the composites with bio‐based resins performed very well and have comparable properties with composites of synthetic epoxy, even at elevated humidity. POLYM. COMPOS., 36:1510–1519, 2015. © 2014 Society of Plastics Engineers
ISSN:0272-8397
1548-0569
1548-0569
DOI:10.1002/pc.23058