细菌纤维素在纺织和制鞋工业中的应用:生物复合材料的开发

M. Fernandes, A. P. Souto, F. Dourado, M. Gama
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引用次数: 16

摘要

一些研究报告了细菌纤维素(BC)在时装和皮革工业中的潜力。以过氧化氢(H2O2)为引发剂,l -抗坏血酸和硫酸亚铁为催化剂,制备以乳化丙烯酸基环氧大豆油(AESO)为原料的bc基复合材料。BC在静态培养下发酵。用耗竭法测定了乳化有机液滴掺入BC前后的聚合情况。然后用抗菌剂(苯扎氯铵)完成复合材料并染色。对复合材料的润湿性、透气性、力学性能、热学性能和抗菌性能进行了表征。在耗尽前进行AESO乳液聚合,得到的复合材料具有更高的WVP、抗拉强度和热稳定性。同时,耗竭后聚合的AESO使复合材料具有更高的疏水性和伸长率。复合材料对金黄色葡萄球菌具有较强的抗菌活性。最后,将其与乳化的AESO与所有被测染料同时掺入时,获得的强烈颜色更加均匀。
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Application of Bacterial Cellulose in the Textile and Shoe Industry: Development of Biocomposites
Several studies report the potential of bacterial cellulose (BC) in the fashion and leather industries. This work aimed at the development of BC-based composites containing emulsified acrylated epoxidized soybean oil (AESO) that are polymerized with the redox initiator system hydrogen peroxide (H2O2) and L-ascorbic acid and ferrous sulfate as a catalyst. BC was fermented under static culture. The polymerization of the emulsified organic droplets was tested before and after their incorporation into BC by exhaustion. The composites were then finished with an antimicrobial agent (benzalkonium chloride) and dyed. The obtained composites were characterized in terms of wettability, water vapor permeability (WVP), mechanical, thermal and antimicrobial properties. When AESO emulsion was polymerized prior to the exhaustion process, the obtained composites showed higher WVP, tensile strength and thermal stability. Meanwhile, post-exhaustion polymerized AESO conferred the composite higher hydrophobicity and elongation. The composites finished with the antimicrobial agent showed activity against S. aureus. Finally, intense colors were obtained more uniformly when they were incorporated simultaneously with the emulsified AESO with all the dyes tested.
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