INFLUENCE OF MICROENCAPSULATION PARAMETERS ON THE SIZE AND MORPHOLOGY OF MICROCAPSULES BY ECO-FRIENDLY SOLVENT EVAPORATION METHOD ORIENTED TO MEDICAL TEXTILES

Thi Chinh THUY DAO, N. Sintès-Zydowicz, Dieu HUONG CHU
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Abstract

Application of microcapsules in medical textile has been studied and commercially developed widely in recent years. The aim of this work was to propose an eco-friendly microencapsulation by solvent evaporation method that can contribute to the manufacture of medical textile products using microcapsules. Quillaja saponin was used as bio-sourced surfactant and ethyl acetate was used as the less toxic, non-halogenated organic solvent. The influences of saponin concentration, stirring speed during emulsification step and the volume of ethyl acetate used to saturate the aqueous phase before emulsification on the microcapsule size and morphology were investigated. The results showed that eudragit microcapsules of ibuprofen with diameter in range from 17 to 34 µm, which were suitable for medical textile applications, were successfully elaborated. The saponin concentration varied from 0.025 to 0.1 wt%. The stirring speed was changed from 700 to 600 rpm. The volume of ethyl acetate used in saturation step was 0, 8 and 12 ml. In the scope of investigation, the saponin concentration and the volume of ethyl acetate used in saturation step did affect the microcapsule size and morphology while the stirring speed did not. The saturation step really helped to reduce the formation of irregular microparticles and to narrow the size distribution, but the microcapsules became more porous, weaker and were deformed significantly by drying in the fabric treatment process.
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医用纺织品环保溶剂蒸发法制备微胶囊工艺参数对微胶囊尺寸和形态的影响
近年来,微胶囊在医用纺织品中的应用得到了广泛的研究和商业化开发。本研究的目的是通过溶剂蒸发法提出一种环保的微胶囊化方法,该方法可用于微胶囊制造医用纺织品。以黄芪皂苷为生物源表面活性剂,乙酸乙酯为无毒无卤有机溶剂。考察了乳化过程中皂苷浓度、搅拌速度和乳化前水相饱和乙酸乙酯用量对微胶囊尺寸和形态的影响。结果表明,成功制备出了直径在17 ~ 34µm范围内的布洛芬药用微胶囊。皂苷浓度为0.025 ~ 0.1 wt%。搅拌速度由700转/分改为600转/分。饱和步骤的乙酸乙酯用量为0、8和12 ml。在本研究范围内,皂苷浓度和饱和步骤的乙酸乙酯用量对微胶囊的大小和形态有影响,而搅拌速度对微胶囊的大小和形态没有影响。饱和步骤确实有助于减少不规则微颗粒的形成,缩小尺寸分布,但在织物处理过程中,微胶囊变得更多孔,更弱,并且在干燥过程中变形明显。
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