A comparative study on the influence of fiber enzymatic treatment in thermal, morphological and mechanical properties of PBS matrix reinforced with different date palm fibers: Under accelerated UV radiation exposure

IF 2.3 3区 材料科学 Q3 MATERIALS SCIENCE, COMPOSITES
Rania Chaari, M. Khlif, C. Bradai, C. Lacoste, Philippe Dony
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Abstract

The use of natural fiber-reinforced polymer materials has become increasingly common in various applications. However, the performance and durability of these composites in outdoor applications are not fully understood. Therefore, the objective of this study is to investigate the impact of an artificial ultraviolet radiation on the degradation behavior of composites based on a Poly Butylene Succinate (PBS) matrix. The reinforcement materials used in this research were the trunk and palm fibers obtained from date palm trees. Specifically, the effect of modifying the fiber surface with an enzymatic treatment on the interfacial adhesion fiber/matrix as well as on the rate of deterioration of the resulted composites, under accelerated aging, was assessed. Changes in the composite’s thermal stability, surface morphology and mechanical properties were determined after aging. A sharp transition in the behavior of the PBS matrix was observed after UV exposure, shifting from slight ductility following 100 h to brittleness after 700 h. The aging process resulted in a decrease in the thermal stability of all composites. However, the composites containing treated fibers exhibited better thermal stability compared to those with untreated fibers. Additionally, the use of enzyme-treated fibers in the composites promoted greater stability in the mechanical properties even after aging. The reinforcement of the composites with palm fibers yielded better interfacial adhesion compared to the use of trunk fibers, and resulted in better retention in the tensile strength property after aging. The enzymatic treatment facilitated stronger physical attachment between the fibers and the matrix, preventing any fiber or interface degradation.
纤维酶解处理对使用不同枣椰纤维增强的 PBS 基质的热性能、形态和机械性能影响的比较研究:加速紫外线辐射条件下
天然纤维增强聚合物材料在各种应用中的使用越来越普遍。然而,人们对这些复合材料在户外应用中的性能和耐用性并不完全了解。因此,本研究旨在探讨人工紫外线辐射对基于聚丁二酸丁二醇酯(PBS)基质的复合材料降解行为的影响。本研究使用的增强材料是从椰枣树上获取的树干和棕榈纤维。具体来说,在加速老化条件下,评估了用酶处理方法改变纤维表面对纤维/基质界面粘附力的影响,以及对所得复合材料劣化率的影响。老化后,复合材料的热稳定性、表面形态和机械性能都发生了变化。紫外线照射后,PBS 基质的行为发生了急剧转变,从 100 小时后的轻微延展性转变为 700 小时后的脆性。不过,与含有未处理纤维的复合材料相比,含有经处理纤维的复合材料具有更好的热稳定性。此外,在复合材料中使用经酶处理的纤维,即使在老化后也能提高机械性能的稳定性。与使用树干纤维相比,用棕榈纤维增强复合材料能产生更好的界面粘附性,并能在老化后更好地保持拉伸强度特性。酶处理有助于加强纤维与基体之间的物理附着,防止纤维或界面降解。
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来源期刊
Journal of Composite Materials
Journal of Composite Materials 工程技术-材料科学:复合
CiteScore
5.40
自引率
6.90%
发文量
274
审稿时长
6.8 months
期刊介绍: Consistently ranked in the top 10 of the Thomson Scientific JCR, the Journal of Composite Materials publishes peer reviewed, original research papers from internationally renowned composite materials specialists from industry, universities and research organizations, featuring new advances in materials, processing, design, analysis, testing, performance and applications. This journal is a member of the Committee on Publication Ethics (COPE).
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