Determination of hemicellulose, cellulose, holocellulose and lignin content using FTIR in<i>Calycophyllum spruceanum</i>(Benth.) K.Schum. and<i>Guazuma crinita</i>Lam.

Javier-Astete, Rosario; Jimenez-Davalos, Jorge; Zolla, Gastón

doi:10.1101/2021.09.01.458618

Cited by 13 publications

(1 citation statement)

References 34 publications

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“…An air separator was then used to extract the light-density pith particles from the chips that had been pitte [30]. For nettle plant stalks, this depithing method worked well and was easy to use.…”

Section: Raw Materials and Raw Materials Treatmentmentioning

confidence: 99%

Optimizing Kraft Pulping Conditions to Improve Nettle Plant Pulp Quality

Tekleyohanis,

Woldeyes

2024

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The suitability of nettle plants for the production of pulp and paper was thoroughly examined, with special consideration given to the plant’s chemical compositions, morphological analysis, and kraft pulping qualities. The mean values of cell wall thickness, fiber length, lumen width, runkel ratio, and nettle plant diameter were found to be 7.4 μm, 55 mm, 4.9 μm, 2.4 and 16.9 μm, respectively. Although nettle plant fibers have a stronger cell wall, their physical properties are comparable to another biomass. The chemical composition investigation found that the contents of nettle plants were 64.8 weight percent holocellulose, 38.7 weight percent alpha-cellulose, 16.8 weight percent lignin, and 5.8 weight percent ash. Additionally, 8.4 weight percent were discovered in the 1% alkaline extractives of nettle leaves. The kraft pulping process of nettle plants needed a low chemical charge and lower boiling time when compared to a number of other non-wood raw materials utilized in the papermaking process. Despite these circumstances, kraft-pulped nettle plants yielded a high-yield bleachable grade pulp. Kraft pulp produced from bleached nettle plants had strength properties that were comparable to those of other biomass for pulp and papermaking materials. Overall, this present research show that nettle plants, which have morphological and chemical characteristics comparable to those of traditional papermaking materials, have a bright future as a source of pulp and paper.

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Section: Raw Materials and Raw Materials Treatmentmentioning

confidence: 99%

Optimizing Kraft Pulping Conditions to Improve Nettle Plant Pulp Quality

Tekleyohanis,

Woldeyes

2024

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One-pot synthesis of foamable bio-resin: High solid content, low viscosity and rapid low-temperature curing

Dong,

Zhang,

Zhang

et al. 2024

Industrial Crops and Products

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Thermal and Mechanical Characterization of Coir Fibre–Reinforced Polypropylene Biocomposites

Ichim

Stelea

Filip³

et al. 2022

Crystals

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In recent years, the growth of environmental awareness has increased the interest in the development of biocomposites which are sustainable materials with an excellent price–performance ratio and low weight. The current study aimed to obtain and characterize the biocomposites prepared by thermoforming using coir fibres as reinforcing material and polypropylene as matrix. The biocomposites were produced with different coir fibres/polypropylene ratios and were characterized by physical–mechanical indices, thermal analysis, crystallinity, attenuated total reflection-Fourier transform infrared spectroscopy analysis (ATR-FTIR), scanning electron microscopy (SEM), and chromatic measurements. Both tensile and bending strength of biocomposites decreased when the coir fibre content increased. The melting temperature of biocomposite materials has decreased with the increase of the coir fibre loading. Regarding the thermal stability, the weight loss and degradation temperature increased with decreasing coir fibre content. The ATR-FTIR and SEM analyses underlined the modifications that took place in the structure of the biocomposites by modifying the coir fibres/matrix ratio.

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Determination of hemicellulose, cellulose, holocellulose and lignin content using FTIR inCalycophyllum spruceanum(Benth.) K.Schum. andGuazuma crinitaLam.

Cited by 13 publications

References 34 publications

Optimizing Kraft Pulping Conditions to Improve Nettle Plant Pulp Quality

Optimizing Kraft Pulping Conditions to Improve Nettle Plant Pulp Quality

One-pot synthesis of foamable bio-resin: High solid content, low viscosity and rapid low-temperature curing

Thermal and Mechanical Characterization of Coir Fibre–Reinforced Polypropylene Biocomposites

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