Biodegradable blends of cellulose with synthetic polymers and some other polysaccharides

Роговина, С. З.; Aleksanyan, K. V.; Прут, Э. В.; Gorenberg, A. Ya.

doi:10.1016/j.eurpolymj.2012.10.002

Cited by 44 publications

(22 citation statements)

References 13 publications

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“…Introduction of a hydrophilic filler into the hydrophobic polymer reduced strength and elasticity of the material, while the modulus of elasticity and density were increased significantly. Elongation of the filled materials is much lower than that of pure polyethylene, which is due to an increase in the material heterogeneity [11,13,55]. The material strength with respect to polyethylene does not reduce significantly.…”

Section: Resultsmentioning

confidence: 92%

Preparation, structure, and properties of biocomposites based on low‐density polyethylene and lignocellulosic fillers

2014

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This article examines compositions based on low density polyethylene containing various lignocellulosic fillers–flax shive, sunflower husk, hay, birch leaves, lignosulfonate, and banana skin. The ethylene‐vinyl acetate copolymer is used as a compatibilizing component. The article is aimed at identifying the main factors determining biodegradation rate of the compositions. Thermal resistance and morphology of the fillers, mechanical and structural characteristics of the compositions, and their stability in aqueous media and ground soil were studied. The influence of the filler particle shape on the resistance of the compositions against various effects was shown. It was found that an increase in the length‐to‐diameter (L/D) ratio of the filler particles increases strength and water absorption, reduces melting viscosity, and accelerates biodegradation in soil. POLYM. COMPOS., 37:1461–1472, 2016. © 2014 Society of Plastics Engineers

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Section: Resultsmentioning

confidence: 92%

Preparation, structure, and properties of biocomposites based on low‐density polyethylene and lignocellulosic fillers

2014

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“…Cellulose has three reactive hydroxyl groups, whereas seaweed has hydroxyl, carboxyl and sulphate groups [5,111]. Therefore, cellulose readily interacts with seaweed by forming hydrogen bonds.…”

Section: Compatibility Between Seaweed Andmentioning

confidence: 99%

Biodegradable polymer films from seaweed polysaccharides: A review on cellulose as a reinforcement material

Khalil¹,

Tye²,

Saurabh³

et al. 2017

Express Polym. Lett.

187

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“…A number of works are dedicated to the study of cellulose-poly(vinyl alcohol) (PVA) blends. The optimal compatibility of PVA with cellulose is observed with 60% PVA in the blend 65 . Such compositions can have various applications; for example, the membranes on their base are used to remove metal ions from aqueous solutions 66 .…”

Section: Cellulose As a Natural Polymermentioning

confidence: 94%

Recent Advanced Technologies in the Processing of Hybrid Reinforced Polymers for Applications of Membranes

Dixit

Pal

2016

Polymers and Polymer Composites

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This review presents a comprehensive introduction to recent advances in the field of blends of the natural and synthetic polymers as new material for biodegradable membranes. These materials and several blends have attracted industrial attention because they exhibit improvements in properties which are required in membrane technology. In the current review, the structure, preparation coating method and properties of the blends of natural and man-made polymer are discussed. We focus on the applications of blend materials for membrane technology like fuel cells, membrane electrolytes and ultrafiltration membranes for water treatment. From the literature, it is found that the most common natural polymers: collagen, chitosan, chitin, cellulose, starch and poly(lactic acid) are used as components of blends with man-made polymers. We have also studied the introduction of nano-fibrous and nano-particles to improve the mechanical properties of these membranes.

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Biodegradable blends of cellulose with synthetic polymers and some other polysaccharides

Cited by 44 publications

References 13 publications

Preparation, structure, and properties of biocomposites based on low‐density polyethylene and lignocellulosic fillers

Preparation, structure, and properties of biocomposites based on low‐density polyethylene and lignocellulosic fillers

Biodegradable polymer films from seaweed polysaccharides: A review on cellulose as a reinforcement material

Recent Advanced Technologies in the Processing of Hybrid Reinforced Polymers for Applications of Membranes

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