添加黄原胶的壳聚糖薄膜的结构、热学、物理、力学和阻隔性能

Structural, Thermal, Physical, Mechanical, and Barrier Properties of Chitosan Films with the Addition of Xanthan Gum.

作者信息

de Morais Lima Maria, Carneiro Lucia Cesar, Bianchini Daniela, Dias Alvaro Renato Guerra, Zavareze Elessandra da Rosa, Prentice Carlos, Moreira Angelita da Silveira

机构信息

Dept. of Agroindustrial Science and Technology, College of Agronomy Eliseu Maciel - Federal Univ. of Pelotas, Pelotas - RS, Brazil.

Center of Chemical Sciences, Pharmaceutical and Food - Federal Univ. of Pelotas, Pelotas-RS, Brazil.

出版信息

J Food Sci. 2017 Mar;82(3):698-705. doi: 10.1111/1750-3841.13653. Epub 2017 Feb 20.

DOI:10.1111/1750-3841.13653

PMID:28218968

Abstract

Films based on chitosan and xanthan gum were prepared using casting technique aiming to investigate the potential of these polymers as packaging materials. Six formulations of films were studied varying the proportion of chitosan and xanthan gum: 100:0 (chitosan:xanthan gum, w/w, C100XG0 film); 90:10 (chitosan:xanthan gum, w/w, C90XG10 film); 80:20 (chitosan:xanthan gum, w/w, C80XG20 film); 70:30 (chitosan:xanthan gum, w/w, C70XG30 film); 60:40 (chitosan:xanthan gum, w/w, C60XG40 film); and 50:50 (chitosan:xanthan gum, w/w, C50XG50 film). The total quantity of solids (chitosan and xanthan gum) in the filmogenic solution was 1.5 g per 100 mL of aqueous solution for all treatments, according to the proportion of each polymer. The films were evaluated by their functional groups, structural, thermal, morphological, physical, mechanical, and barrier properties. All films have presented endothermic peaks in the range of 122 to 175 °C and broad exothermic peaks above 200 °C, which were assigned to the melting temperature and thermal decomposition, respectively. These results demonstrated that films with xanthan gum have the highest T and Δ H. The films containing higher content of xanthan gum show also the highest tensile strength and the lowest elongation. Xanthan gum addition did not affect the water vapor permeability, solubility, and moisture of films. This set of data suggests the formation of chitosan-xanthan complexes in the films.

摘要

采用流延技术制备了基于壳聚糖和黄原胶的薄膜，旨在研究这些聚合物作为包装材料的潜力。研究了六种薄膜配方，改变壳聚糖和黄原胶的比例：100:0（壳聚糖:黄原胶，w/w，C100XG0薄膜）；90:10（壳聚糖:黄原胶，w/w，C90XG10薄膜）；80:20（壳聚糖:黄原胶，w/w，C80XG20薄膜）；70:30（壳聚糖:黄原胶，w/w，C70XG30薄膜）；60:40（壳聚糖:黄原胶，w/w，C60XG40薄膜）；以及50:50（壳聚糖:黄原胶，w/w，C50XG50薄膜）。根据每种聚合物的比例，成膜溶液中固体（壳聚糖和黄原胶）的总量为每100 mL水溶液1.5 g。通过其官能团、结构、热、形态、物理、机械和阻隔性能对薄膜进行了评估。所有薄膜在122至175°C范围内均出现吸热峰，在200°C以上出现宽放热峰，分别归因于熔点和热分解。这些结果表明，含有黄原胶的薄膜具有最高的T和ΔH。黄原胶含量较高的薄膜也表现出最高的拉伸强度和最低的伸长率。添加黄原胶不影响薄膜的水蒸气透过率、溶解度和水分。这组数据表明薄膜中形成了壳聚糖-黄原胶复合物。

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添加黄原胶的壳聚糖薄膜的结构、热学、物理、力学和阻隔性能

Structural, Thermal, Physical, Mechanical, and Barrier Properties of Chitosan Films with the Addition of Xanthan Gum.

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