用桉树油和辣木胶研制驱蚊迷彩织物

IF 2.8 Q2 ENGINEERING, CHEMICAL ChemEngineering Pub Date : 2023-07-20 DOI:10.3390/chemengineering7040064
F. Anwar, M. Abbas, M. Malik, Amna Aziz Cheema, Suniya Tariq, Warda Afzal, Asfandyar Khan
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引用次数: 1

摘要

军事人员在山区和野生森林中暴露于几种恶劣的条件和蚊子。驱蚊纺织品可以帮助他们应对这种情况。本研究建立了以桉树油、辣木和阿拉伯胶为原料,采用复合凝聚法制备微胶囊的可持续方法。采用辣木和阿拉伯树胶作为微胶囊的外壳,不同浓度的桉树油制成微胶囊的核心部分。采用垫-干固化技术将制备好的微胶囊包覆在军用迷彩印花涤纶/棉混纺织物上。采用光学显微镜和扫描电子显微镜(SEM)对微胶囊的表面形貌进行了观察,并根据标准测试方案采用特定的笼试验对涂层织物的驱蚊性能进行了研究。对处理后样品的吸水性和透气性进行了评价,以了解其舒适性。笼试结果表明,涂膜织物对笼试中使用的蚊虫有良好的驱避倾向。此外,即使经过几次严格的洗涤循环,涂层织物也显示出显著的耐用性。然而,微胶囊在织物中的应用对织物的吸水性和透气性影响较小。本研究提出了一种利用上述前体制备微胶囊的新型可持续方法,并将其应用于纺织品领域,特别是军事用途。
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Development of Mosquito-Repellent Camouflage Fabric Using Eucalyptus Oil with Moringa oleifera Gum
Military personnel are exposed to several harsh conditions and mosquitos in mountains and wild forests. Mosquito-repellent textiles can help them to cope with such conditions. The present research work established a sustainable approach for fabricating microcapsules from Eucalyptus oil, Moringa oleifera, and Arabic gum via a complex coacervation method. Moringa oleifera and Arabic gums were utilized as the outer shell of the microcapsules, whereas the core part was made of Eucalyptus oil in different concentrations. The military camouflage-printed polyester/cotton (PC) blended fabric was coated with the as-prepared microcapsules using the pad–dry–cure technique. The surface morphology of the microcapsules was examined using an optical microscope and scanning electron microscope (SEM), and the coated fabric’s mosquito-repellent property was investigated using a specified cage test according to a standard testing protocol. The water absorbency and air permeability of the treated samples were also evaluated in order to learn about the comfort properties. The cage test results revealed that the coated fabric had a good tendency to repel the mosquitoes used in the cage test. In addition, the coated fabric showed significant durability even after several rigorous washing cycles. However, the application of microcapsules to the fabric slightly affected the water absorbency and air permeability of the fabric. This study presents a novel sustainable approach for fabricating microcapsules from the mentioned precursors and their application in the field of textiles, particularly for military purposes.
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来源期刊
ChemEngineering
ChemEngineering Engineering-Engineering (all)
CiteScore
4.00
自引率
4.00%
发文量
88
审稿时长
11 weeks
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