Natural Cellulosic Polymers as Potential Reinforcement in Composites: Physicochemical and Mechanical Studies

Thakur, Vijay Kumar; Singha, A. S.; Thakur, Manju Kumari

doi:10.1002/adv.21290

Cited by 64 publications

(22 citation statements)

References 35 publications

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“…Such a hydrophilic nature of natural fibers can be a drawback, which makes them less competitive compared to glass fibers. When in wet conditions natural fiber composites absorb moisture from a moist atmosphere resulting in fiber swelling or interface disbands that make the natural fiber composite limited to interior parts of the automobile . Singh and Gupta found that the strength of a sisal/polyester composite was 13–31% lower when fully immersed than at 95% RH.…”

Section: Challengesmentioning

confidence: 99%

A Review: Natural Fiber Composites Selection in View of Mechanical, Light Weight, and Economic Properties

Ahmad

Choi

Park

2014

Macro Materials & Eng

509

220

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In this study, the properties and application of natural fiber composites in automobile industries are discussed. Natural fibers are replacing the synthetic fibers in the various parts of automobiles due to their lightweight, low‐cost, and environmental aspects. For centuries, natural fibers have been used for making baskets, clothing, and ropes. Now the trend is changing and natural fibers such as: jute, hemp, flax, and sisal fibers are making their ways especially into the components of automobiles. Comparisons of material indices for beam and panel structures were made to investigate the possibility of using natural fiber composites instead of conventional and non‐conventional materials.

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Section: Challengesmentioning

confidence: 99%

A Review: Natural Fiber Composites Selection in View of Mechanical, Light Weight, and Economic Properties

Ahmad

Choi

Park

2014

Macro Materials & Eng

509

220

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“…The key problem in producing composite materials is to achieve good interphase adhesion between the polymer matrix and the lignocellulosic filler (Thakur et al 2013). Moreover, the unmodified lignocellulosic components show a tendency towards aggregation, which is a consequence of the intermolecular interactions (H-bonds) between the molecules of the filler.…”

Section: Introductionmentioning

confidence: 99%

The effect of chemical modification of wood in ionic liquids on the supermolecular structure and mechanical properties of wood/polypropylene composites

et al. 2018

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Effects of chemical modification of wood with innovative ionic liquid on the supermolecular and morphology of wood/polypropylene composites were investigated using X-ray diffraction, hot stage optical microscopy, and differential scanning calorimetry. For the first time the chemical treatment of wood was conducted solely with newly synthesized ionic liquid, didecyldimethylammonium bis(trifluoromethylsulfonyl)imide. The modification was found to be responsible for significant changes in nucleating abilities of wood in polypropylene matrix. These findings were confirmed by crystallization temperature, crystal conversion, crystallization half-time parameters, as well as observation of transcrystalline structures. Ionic liquid treatment of wood influenced also formation of polymorphic forms of polymer matrix. In contrast to composites with untreated wood, in composites with modified wood filler formation of b-phase of polypropylene was observed. This fact was discussed in view of differences in nucleating activity of lignocellulosic filler, resulting from chemical treatment with ionic liquid. Moreover, a relationship between mechanical properties of composites and the phenomena taking place at the polymer-filler interface, controlled by chemical modifications of lignocellulosic components, was evaluated.

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“…Cellulose, consisting of 10000-25000 ˇ-(1→4)-linked glucopyranosyl repeating units has attracted the considerable attraction of research community all around the globe owing to their unique intrinsic properties such as biodegradability [1,2], easy availability [3], environmental friendliness [4,5], flexibility [6], easy processing and impressive physico-mechanical properties [7][8][9]. Using renewable materials, more eco-friendliness can be achieved relative to the conventional toxic synthetic polymer composites materials [10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Synthesis, micellization behavior and alcohol induced amphipathic cellulose film of cellulose-based amphiphilic surfactant

Yang

Liu

et al. 2015

Applied Surface Science

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Natural Cellulosic Polymers as Potential Reinforcement in Composites: Physicochemical and Mechanical Studies

Cited by 64 publications

References 35 publications

A Review: Natural Fiber Composites Selection in View of Mechanical, Light Weight, and Economic Properties

A Review: Natural Fiber Composites Selection in View of Mechanical, Light Weight, and Economic Properties

The effect of chemical modification of wood in ionic liquids on the supermolecular structure and mechanical properties of wood/polypropylene composites

Synthesis, micellization behavior and alcohol induced amphipathic cellulose film of cellulose-based amphiphilic surfactant

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