Characterization of Composite Film Containing Polyvinyl Alcohol Cross‐Linked With Dialdehyde Cellulose Using Citric Acid as a Catalyst for Sustainable Packaging

IF 2.8 4区工程技术 Q2 ENGINEERING, MANUFACTURING

Packaging Technology and Science Pub Date : 2024-07-23 DOI:10.1002/pts.2841

M. Khin, S. Ahammed, Tariq Aziz, Fahad Al‐Asmari, M. Sameeh, Haiying Cui, Lin Lin

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Abstract

This study is aimed at fabricating composite films by cross‐linking polyvinyl alcohol (PVA) and dialdehyde cellulose (DAC) in varying ratios using citric acid as a catalyst. The acetal formation between the two components was studied using FTIR. Characterizations of the physiochemical properties revealed that increasing the DAC ratio of the composite film improved the hydrophobicity, tensile strength and barrier properties (water vapour, UV and oxygen) of the films while reducing elongation at break (flexibility), swelling and solubility of the film in water. When the DAC ratio was elevated to 50%, the tensile strength was enhanced to 98 MPa. In comparison, flexibility diminished to 29%, the solubility of the film reduced to 10% and water vapour permeability was lower by two orders of magnitude than that of the control PVA film. The peroxide value of linoleic acid decreased from 21.2% ± 7.6 (packed with PVA film) to 9.9% ± 0.9 (packed with 50% DAC composite film) after 15 days. Furthermore, the composite films demonstrated effective absorption of UV radiation, with the order of effectiveness being UV‐C > UV‐B > UV‐A radiation. No significant difference in biodegradability was detected in the composite films with an increase in DAC ratio during indoor soil burial tests for 30 days. This study implies that the composite film could serve as an alternative sustainable packaging option, especially when transparency and high oxygen barrier properties are desired.

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以柠檬酸为催化剂、含聚乙烯醇与甲醛纤维素交联的复合膜的特性分析，以实现可持续包装

本研究旨在以柠檬酸为催化剂，通过不同比例的聚乙烯醇（PVA）和二醛纤维素（DAC）交联，制造复合薄膜。使用傅立叶变换红外光谱对两种成分之间形成的缩醛进行了研究。理化特性分析表明，提高复合薄膜的 DAC 比率可改善薄膜的疏水性、拉伸强度和阻隔性（水蒸气、紫外线和氧气），同时降低薄膜的断裂伸长率（柔韧性）、溶胀性和在水中的溶解度。当 DAC 比率提高到 50%时，拉伸强度提高到 98 兆帕。相比之下，柔韧性降低到 29%，薄膜的溶解度降低到 10%，水蒸气渗透性比对照 PVA 薄膜低两个数量级。15 天后，亚油酸的过氧化值从 21.2% ± 7.6（PVA 薄膜包装）降至 9.9% ± 0.9（50% DAC 复合薄膜包装）。此外，复合膜还能有效吸收紫外线辐射，吸收紫外线辐射的效果依次为 UV-C > UV-B > UV-A。在为期 30 天的室内土壤掩埋试验中，未发现随着 DAC 比率的增加，复合膜的生物降解性有明显差异。这项研究表明，复合膜可以作为一种可持续包装的替代选择，尤其是在需要透明性和高氧气阻隔性的情况下。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Packaging Technology and Science 工程技术-工程：制造

CiteScore

4.90

自引率

7.70%

发文量

审稿时长

>12 weeks

期刊介绍： Packaging Technology & Science publishes original research, applications and review papers describing significant, novel developments in its field. The Journal welcomes contributions in a wide range of areas in packaging technology and science, including: -Active packaging -Aseptic and sterile packaging -Barrier packaging -Design methodology -Environmental factors and sustainability -Ergonomics -Food packaging -Machinery and engineering for packaging -Marketing aspects of packaging -Materials -Migration -New manufacturing processes and techniques -Testing, analysis and quality control -Transport packaging

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