Sugar Palm Fibre and its Composites: A Review of Recent Developments

Mukhtar, Isma’ila; Leman, Zulkiflle; Ishak, Mohamad Ridzwan; Zainudin, E.S.

doi:10.15376/biores.11.4.10756-10782

Cited by 45 publications

(23 citation statements)

References 74 publications

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“…This is ascribed to the effect of eco‐friendly treatment which, provides an efficient interlocking of fibers with the matrix after elimination of hemicellulose and waxy substances from the sisal fibers . Exclusion of hemicelluloses and lignin after ecofriendly treatment was reported in previous studies . Composite SC (T2) shows the lowest water uptake credited to a combined effect of eco‐friendly treatment and coating which provides strong interfacial bonding as the treatment eliminates the hemicellulose and lignin, and coating makes the fibers more hydrophobic and acts as a protective layer which strongly opposes to the water absorption…”

Section: Resultsmentioning

confidence: 66%

“…It was observed that fiber‐matrix adhesion and stiffness were enhanced by treatment owing to better mechanical anchoring and wetting. Mukhtar et al remarked an improvement in thermal stability, crystallinity, and tensile strength after sodium bicarbonate treatment of sugar palm fibers credited to an increase in the content of cellulose. An improvement in mechanical and thermal properties of hemp/polyester composites was found by sodium bicarbonate treatment .…”

Section: Introductionmentioning

confidence: 99%

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Lowering in water absorption capacity and mechanical degradation of sisal/epoxy composite by sodium bicarbonate treatment and PLA coating

Sahu

Gupta

2019

Polymer Composites

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In view of environmental imbalance due to numerous use of manmade fibers and plastic products, demand of natural fibers reinforced biocomposites have been increased. The products prepare by these biocomposites have been used in the various applications. However, their utilizations are not found suitable in the applications where high strength and high water resistance are required. The prime aim of the present study is to improve the water resistance capacity and mechanical performance of aged sisal biocomposites. In this context, hand lay-up process was used to prepare the epoxy-based biocomposites by reinforcing the surface modified sisal fibers consisted of eco-friendly sodium bicarbonate treatment and poly (lactic acid) coating. The highest water absorption, thickness swelling, and sorption, diffusion and permeability coefficients of the fabricated sisal composites were studied. Moreover, the effect of water absorption on tensile, flexural, impact, and hardness properties of the sisal composites was also investigated. It was noticed that treated and coated sisal composite revealed the best water resistant behavior than all other the composites. This composite exhibited 30% lower water absorption capacity than that of pure sisal composite. Further, lowest degradation in mechanical properties, that is, tensile strength (3.59%), flexural strength (33.18%), and hardness (11.96%) was observed for treated and coated sisal composite. K E Y W O R D Scoating, eco-friendly treatment, mechanical properties, thickness swelling, water absorption behavior

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Section: Resultsmentioning

confidence: 66%

Section: Introductionmentioning

confidence: 99%

Lowering in water absorption capacity and mechanical degradation of sisal/epoxy composite by sodium bicarbonate treatment and PLA coating

Sahu

Gupta

2019

Polymer Composites

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“…The incorporation of the natural fibre comes with a lot of benefits which include but not limited to low density, low cost, availability, renewability, biodegradability, and nonabrasive [6][7][8][9][10][11]. Therefore, combining these two different reinforcing materials, a hybrid composite with balance performance especially cost performance and lightweight can be synthesized.…”

Section: Introductionmentioning

confidence: 99%

Hybrid and Nonhybrid Laminate Composites of Sugar Palm and Glass Fibre-Reinforced Polypropylene: Effect of Alkali and Sodium Bicarbonate Treatments

Mukhtar

Leman

Zainudin

et al. 2019

International Journal of Polymer Science

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In recent years, the hybrid composites of cellulosic and synthetic fibres are tailored to yield materials with reduced cost and weight. Prior to the fabrication of the hybrid composite, in most case, the cellulosic fibre needs surface modification for proper bonding. Therefore, this study investigates the effect of sodium bicarbonate treatment on the physical and mechanical properties of the hybrid and nonhybrid laminate composites of sugar palm and glass fibre-reinforced polypropylene. The findings will be compared with the conventional alkali treatment. The laminate composites were fabricated using the film stacking technique and hot compression process. Prior to the fabrication process, the sugar palm fibre in it which is naturally woven mat was treated with 4 wt% and 10 wt% alkali and sodium bicarbonate, respectively. All the laminate composites were investigated by tensile, flexural, and impact test, water absorption, and morphological examination. The tensile strength increased with both alkaline and sodium bicarbonate treatments for the hybrid and nonhybrid composites. The increase was more pronounced with the alkaline-treated SPF composite (L03) which displayed the highest value of 61.75 MPa, while that of the sodium bicarbonate-treated SPF composite (L04) recorded 58.76 MPa against 53.01 MPa for the untreated SPF composite (L02). The same trend was observed for the flexural strength. In overall, the alkaline treatment yielded better performance in comparison with sodium bicarbonate treatment.

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“…Also, natural fibres offer many advantages over synthetic fibres, such as being readily available at low cost, having low density, being non-toxic and non-abrasive, and having acceptable specific properties (Jawaid et al 2013;Isma'ila et al 2016;Rashid et al 2017c). However, they have certain drawbacks, including poor fibre-matrix interfacial bonding, high moisture absorption, and low thermal stability.…”

Section: Introductionmentioning

confidence: 99%

Dynamic Mechanical Analysis of Treated and Untreated Sugar Palm Fibre-based Phenolic Composites

Rashid¹,

Leman²,

Jawaid³

et al. 2017

BioResources

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,ePhenolic-based sugar palm fibres (SPFs) were used as a filler for composites that were fabricated by hot pressing. The composites were prepared using various volume loadings of SPFs. Dynamic mechanical analysis (DMA) was carried out to evaluate the storage modulus (Eʹ), loss modulus (Eʺ), and tan delta as a function of temperature. The SPFs were treated by seawater for 30 days and a 0.5 alkaline solution for 4 days. The phenolic composites with 30% volume loading of SPFs were used to determine the effect of treatments on the DMA properties of the composites. The obtained results indicate that incorporating a SPF filler notably increased the Eʹ and Eʺ properties and decreased the damping factor of the phenolic composites. Both treatments affected the DMA results. However, the alkaline-treated composites showed higher DMA properties compared with the seawater-treated and untreated fibre composites.

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Sugar Palm Fibre and its Composites: A Review of Recent Developments

Cited by 45 publications

References 74 publications

Lowering in water absorption capacity and mechanical degradation of sisal/epoxy composite by sodium bicarbonate treatment and PLA coating

Lowering in water absorption capacity and mechanical degradation of sisal/epoxy composite by sodium bicarbonate treatment and PLA coating

Hybrid and Nonhybrid Laminate Composites of Sugar Palm and Glass Fibre-Reinforced Polypropylene: Effect of Alkali and Sodium Bicarbonate Treatments

Dynamic Mechanical Analysis of Treated and Untreated Sugar Palm Fibre-based Phenolic Composites

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