Effects of Cellulose Whiskers on Properties of Soy Protein Thermoplastics

Wang, Yixiang; Cao, Xiaodong; Zhang, Lina

doi:10.1002/mabi.200600034

Cited by 209 publications

(120 citation statements)

References 25 publications

(38 reference statements)

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“…The concentration of coconut nanocellulose directly influenced the permeability to water vapor; as the concentration of these nanoparticles increased in nano-biocomposites, the permeability to water vapor decreased (R 2 = 0.98) ( Figure 2). Similar results to this study were found by Lu et al (2005), Wang et al (2006) and Cao et al (2008) for nano-biocomposites with starch, protein and starch matrixes, respectively, containing nanocellulose from cotton linter (Lu et al, 2006) and from hemp (Cao et al, 2008).…”

Section: Barrier Properties Of Nano-biocompositessupporting

confidence: 90%

Characterization of cassava starch films plasticized with glycerol and strengthened with nanocellulose from green coconut fibers

Machado¹,

Reis²,

Cruz³

et al. 2017

Afr. J. Biotechnol.

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The aim of this study was to obtain and characterize biodegradable films of cassava starch plasticized with glycerol and reinforced with nanocellulose from coconut fibers. The mechanical and physicalchemical properties of the nano-biocomposites films obtained were evaluated. The method used to investigate the viability of incorporating coconut nanocellulose in films was applied through a statistical design of the response surface of 17 formulations containing three independent variables (starch, glycerol and nanocellulose). The films were prepared through casting technique, and the effect of different concentrations of the ingredients in each formulation was investigated by monitoring the dependent variables. The green coconut fiber was composed of 32% cellulose, 38% lignin and 0.25% hemicellulose resulted in nanocellulose with a length (L)/diameter(D) value of 38.9±4.7 after the acid hydrolysis process (64% H 2 SO 4 ; 50°C; 10-15 min). The incorporation of nanocellulose resulted in significant changes (p<0.05) in the barrier and mechanical properties. Additionally, there was a significant increase in the Young's modulus and in the tensile of the nano-biocomposites. Consequently, there was a decrease in the percentage of elongation. Thus, films formulated from cassava starch plasticized with glycerol could have significantly altered mechanical, technical and barrier properties due to the incorporation of coconut nanocellulose.

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Section: Barrier Properties Of Nano-biocompositessupporting

confidence: 90%

Characterization of cassava starch films plasticized with glycerol and strengthened with nanocellulose from green coconut fibers

Machado¹,

Reis²,

Cruz³

et al. 2017

Afr. J. Biotechnol.

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“…Portanto, as duas formulações resultam em filmes que podem ser empregados para diferentes aplicações, independente do aditivo incorporado, já que diferem em relação ao módulo, tensão e deformação. Ressalta-se ainda que as ótimas propriedades mecânicas apresentadas pelos filmes (A, B, CA e CB) estão relacionadas à presença dos nanocristais de celulose de coco, como relatado por outros autores que também incorporaram nanocristais de celulose de diferentes fontes em matrizes poliméricas biodegradáveis (WANG et al, 2006;CAO et al, 2008). SOUZA et al (2012) relatam valores bastante inferiores para a tensão (1,85 a 4,81MPa) de filmes de amido sem a presença de nanocristais de celulose.…”

Section: -----------------------------------------Pt/dia (% Periódicounclassified

Desenvolvimento e avaliação da eficácia de filmes biodegradáveis de amido de mandioca com nanocelulose como reforço e com extrato de erva-mate como aditivo antioxidante

Machado

Nunes²,

Pereira

et al. 2012

Cienc. Rural

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“…Both natural and synthetic polymers were explored as the matrixes. Natural polymers such as poly(β-hydroxyoctanoate) (PHO) [19], soy protein [20], silk fibroin [21] reinforced with cellulose whiskers were reported. Meanwhile, Poly-(styrene-co-butyl acrylate) (poly(S-co-BuA)) [22], poly(vinyl chloride) (PVC) [23], polypropylene [24], waterborne polyurethane [25], were also used as synthetic matrixes.…”

Section: Introductionmentioning

confidence: 99%

Starch-based nanocomposites reinforced with flax cellulose nanocrystals

Cao¹,

Chen²,

Chang³

et al. 2008

Express Polym. Lett.

231

110

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Abstract. In this study, the cellulose crystals, prepared by acid hydrolysis of flax fiber, consisted of slender rods with lengths ranging from 100 to 500 nm and diameters ranging from 10 to 30 nm, respectively. After mixing the suspension of flax cellulose nanocrystals (FCNs) and plasticized starch (PS), the nanocomposite films were obtained by the casting method. The effects of FCNs loading on the morphology, thermal behaviour, mechanical properties and water sensitivity of the films were investigated by means of wide-angle X-ray diffraction, differential scanning calorimetry, tensile testing, and water absorption testing. Scanning electron microscopy photographs of the failure surfaces clearly demonstrated a homogeneous dispersion of FCNs within the PS matrix and strong interfacial adherence between matrix and fillers, which led to an increase of glass transition temperature ascribed to the starch molecular chains in the starch-rich phase. In particular, these nanocomposite films exhibited a significant increase in tensile strength and Young's modulus from 3.9 to 11.9 MPa and from 31.9 to 498.2 MPa, respectively, with increasing FCNs content from 0 to 30 wt%. Also, with a loading of FCNs, the resulting nanocomposite films showed a higher water resistance. Therefore, FCNs played an important role in improving the mechanical properties and water resistance of the starch-based materials.

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Effects of Cellulose Whiskers on Properties of Soy Protein Thermoplastics

Cited by 209 publications

References 25 publications

Characterization of cassava starch films plasticized with glycerol and strengthened with nanocellulose from green coconut fibers

Characterization of cassava starch films plasticized with glycerol and strengthened with nanocellulose from green coconut fibers

Desenvolvimento e avaliação da eficácia de filmes biodegradáveis de amido de mandioca com nanocelulose como reforço e com extrato de erva-mate como aditivo antioxidante

Starch-based nanocomposites reinforced with flax cellulose nanocrystals

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