Chemical modification of sugarcane bagasse and sisal fibers using hydroxymethylated lignin: Influence on impact strength and water absorption of phenolic composites

Tita, Sandra Patricia da Silva; Medeiros, Ricardo de; Tarpani, José Ricardo; Frollini, Elisabete; Tita, Volnei

doi:10.1177/0021998317753886

Cited by 16 publications

(10 citation statements)

References 36 publications

(47 reference statements)

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“…The following density values were adopted in the calculation: glass fiber (2500 kg/m 3 ), sisal fiber (1500 kg/m 3 ), coconut fiber (1200 kg/m 3 ), luffa fiber (920 kg/m 3 ). 4,11,13–15,21–23 The mass fraction of the constituents, also shown in Table 2, was determined by weighing the materials before and after the composites manufacture.…”

Section: Resultsmentioning

confidence: 99%

“…All fibers have similar structure, i.e., small fibrils distributed around the hollow center called lumen (see Figure 6(b) and (c)). 4,23,29 Interfacial debonding was observed in some natural fibers (see Figure 6(a) and (c)), as a result of the weak fiber/matrix adhesion. It is noteworthy that these fibers were used without any special treatment to improve interfacial adhesion.…”

Section: Resultsmentioning

confidence: 99%

“…1–3 Chemical modification of the fiber surfaces can reduce the water absorption and improve the mechanical properties. 4 Another option to improve the mechanical properties is to make hybrid composites by adding small amounts of synthetic fiber, such as glass fiber. Besides improving the mechanical properties, the glass fiber can act as a chemical barrier reducing the water absorption of the composite.…”

Section: Introductionmentioning

confidence: 99%

“…20 The difference in properties between the sisal fibers, coir fibers, and luffa sponge is remarkable. 4,11,13–15,21–23 The sisal fiber presents higher properties than the coir and the luffa sponge fibers.…”

Section: Introductionmentioning

confidence: 99%

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Hybrid composites with glass fiber and natural fibers of sisal, coir, and luffa sponge

Silva

Voltz

Filho

et al. 2020

Journal of Composite Materials

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Hybrid composites with synthetic and natural fibers are a good choice in the field of composites, as they combine the good mechanical performance of synthetic fibers with the advantages of natural fibers. In this work, polymeric hybrid composites associating glass fiber and natural fibers were developed. Three hybrid composites were developed: sisal/glass, coir/glass and Luffa/glass. The composites are five-layer laminate, three layers of E-glass interspersed with two layers of natural fibers that can be sisal, coir, or Luffa sponge (Luffa Cylindrica). In addition to hybrid composites, a five-layer fiberglass composite was also manufactured. The composites were manufactured by compression molding technique using orthophthalic polyester resin as matrix. Tensile and flexural tests were performed to characterize the composites. Considering the three hybrid composites, the best behavior was observed for the sisal/glass composite, being a potential replacement for fiberglass. The order of performance was the same in the tensile and flexural tests, sisal/glass, coir/glass, and luffa/glass, in this order. In the specimen’s fracture analysis, for both tests, it was observed that the fracture was quite located with no damage in regions far from the fracture. This behavior indicates good adhesion between the layers of natural and synthetic fibers, despite the discrepancy of their properties.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Hybrid composites with glass fiber and natural fibers of sisal, coir, and luffa sponge

Silva

Voltz

Filho

et al. 2020

Journal of Composite Materials

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“…[1,2] There are many natural fibers produced from plants and used as reinforcing materials to enhance the biodegradability of polymeric materials. Many researchers have investigated the use of natural fibers such as sugarcane, [3] sisal, [4] banana, [5] jute, [6] and bamboo [7] for these purposes. Among the available plant fibers, sisal is a hard fiber produced from the Agave sisalana plant.…”

Section: Introductionmentioning

confidence: 99%

Mechanical, water uptake properties, and biodegradability of polystyrene‐coated sisal fiber‐reinforced high‐density polyethylene

Abdel‐Hakim

Mourad

2019

Polymer Composites

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In this study, composites of high‐density polyethylene (HDPE) with uncoated sisal fibers (UF) and that coated (CF) with polystyrene (PS) and vinyltrimethoxysilane (VTMS) copolymers (PSV) were fabricated. The prepared copolymers containing 2.5% VTMS (PSa) and 5% VTMS (PSb) were used to coat the sisal fiber with a thin layer of hydrophobic polymer to make coated fibers CFa and CFb, respectively. The coating process was verified by Fourier‐transform infrared spectroscopy (FTIR) analysis. The mechanical, water absorption, morphology, and biodegradation properties of HDPE and its composites with UF (HUF) and CF (HCF) composites were evaluated. The tensile strength and flexural strength were improved by 19.5% and 34% after addition of 5% CFb to HDPE compared to HDPE composite which contains 5% UF. The results manifested significant reduction in the amount of water absorbed by CF and HCF composites compared to UF and HUF composites. Additionally, scanning electron micrographs indicated that the coating of sisal fibers with PSV improved the compatibility between sisal fibers and HDPE polymeric matrix. Also, the composites containing CF exhibited a lower rate of degradation than those containing UF.

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Removing silica from oil palm mesocarp fibers

Pinheiro

Leitão

Frollini

2021

Biomass Conv. Bioref.

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Chemical modification of sugarcane bagasse and sisal fibers using hydroxymethylated lignin: Influence on impact strength and water absorption of phenolic composites

Cited by 16 publications

References 36 publications

Hybrid composites with glass fiber and natural fibers of sisal, coir, and luffa sponge

Hybrid composites with glass fiber and natural fibers of sisal, coir, and luffa sponge

Mechanical, water uptake properties, and biodegradability of polystyrene‐coated sisal fiber‐reinforced high‐density polyethylene

Removing silica from oil palm mesocarp fibers

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