The effect of different molecular weight chitosan on the physical and mechanical properties of plasticized films

European journal of chemistry (Print) Pub Date : 2022-12-31 DOI:10.5155/eurjchem.13.4.460-467.2341

S. Mutasher, H. Al-Lami

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引用次数: 1

Abstract

Packaging materials based on biodegradable polymers are a viable alternative to replacing conventional plastic packaging of fossil origin. The main two factors affecting functionality and performance are the molecular weight and the type of plasticizer used in these materials. The goal of this research was to modify unfractionated plasticized chitosan films to improve the physical and mechanical characteristics of the original unfractionated chitosan films. Chitosan extracted from local shrimp shells was zone-refined to produce five distinct chitosan fractions with molecular weights ranging from 1.089×105 to 5.605×105 g/mole. The unfractionated and fractionated chitosan films plasticized with 1:3 poly(vinyl alcohol) and 2:1 maleic acid were prepared by casting from their 2% acetic acid solutions. They were examined by FT-IR and were found to be comparable to the native chitosan spectrum, indicating that the primary backbone of the chitosan structure was unaltered. Therefore, the effects of molecular weight fractions and the type of plasticizer on the physical and mechanical properties were investigated. Examining the films’ surface topography by atomic force microscopy revealed that increasing the molecular weight of chitosan fractions from 2.702×105 to 5.605×105 g/mole affects the surface morphology of the chitosan: poly(vinyl alcohol) (1:3) film. This was accompanied by an increase in the surface roughness of the resulting film from 0.953 to 2.82, and for chitosan: maleic acid from 0.509 to 1.62. It was found that the tensile strength and Young’s modulus of the cast films decreased and the percent elongation at break of the plasticized fractionated chitosan films was increased, implying that less stiff films were obtained with fractionated chitosan. The outcome of this work suggests that the biodegradable fractionated chitosan blend film is a promising packaging material and that poly(vinyl alcohol) is the most suitable plasticizer for this formulation.

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不同分子量壳聚糖对增塑膜物理力学性能的影响

基于可生物降解聚合物的包装材料是取代传统化石塑料包装的可行替代品。影响功能和性能的两个主要因素是这些材料中使用的增塑剂的分子量和类型。本研究的目的是对未分级的增塑壳聚糖薄膜进行改性，以改善原未分级的壳聚糖薄膜的物理力学性能。从当地虾壳中提取的壳聚糖经过区域精制，得到五种不同的壳聚糖级分，分子量在1.089×105-5.605×105g/mol之间。用2%乙酸溶液浇铸，制备了用1∶3聚乙烯醇和2∶1马来酸增塑的未分级和分级壳聚糖薄膜。通过FT-IR检测它们，发现它们与天然壳聚糖光谱相当，表明壳聚糖结构的主链没有改变。因此，研究了分子量分数和增塑剂类型对其物理力学性能的影响。通过原子力显微镜检查薄膜的表面形貌，发现壳聚糖组分的分子量从2.702×105增加到5.605×105 g/mol会影响壳聚糖-聚乙烯醇（1:3）薄膜的表面形态。这伴随着所得膜的表面粗糙度从0.953增加到2.82，对于壳聚糖：马来酸从0.509增加到1.62。研究发现，经塑化的分级壳聚糖薄膜的拉伸强度和杨氏模量降低，断裂伸长率增加，这意味着分级壳聚糖获得的薄膜硬度较低。这项工作的结果表明，可生物降解的分级壳聚糖共混膜是一种很有前途的包装材料，聚乙烯醇是最适合该配方的增塑剂。

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European journal of chemistry (Print)

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