Effect of micro phase change materials on the thermal behavior of leather

Siamak Nazemi, Rohollah Bagherzade, Mohsen Gorji
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Abstract

Today, scientists are interested in the manufacturing and invention of smart textiles such as phase change materials (PCMs). The process of phase change from solid to liquid and vice versa takes place in such materials. Using materials such as PCM could change the properties of leather for better performance, and could be applied to many places such as the shoe industry. The background of the study is that using PCMs could increase thermoregulating properties of materials. For finishing leather with PCMs, several methods were suggested such as spraying, tanning, laminating, etc. In this study, first impregnated leather with 5% and 10% of PCM by spray technic are prepared and characterized using scanning electron microscopy (SEM) and differential scanning calorimetry (DSC). Finally, water vapor permeability and physical properties of the samples were analyzed for an understanding of leather comfort. The results reveal that after impregnating with 10% PCMs, significant effects on the thermal behavior of samples were observed, and this finishing had no effect on the comfort of leather.
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微相变材料对皮革热性能的影响
如今,科学家们对相变材料(PCMs)等智能纺织品的制造和发明很感兴趣。在这种材料中发生了从固体到液体以及从液体到固体的相变过程。使用诸如PCM之类的材料可以改变皮革的特性以获得更好的性能,并且可以应用于许多地方,例如制鞋工业。本研究的背景是使用PCMs可以提高材料的温度调节性能。提出了用PCMs涂饰皮革的几种方法,如喷涂、鞣制、覆膜等。本研究首先用喷雾法制备了5%和10% PCM浸渍皮革,并用扫描电镜(SEM)和差示扫描量热法(DSC)对皮革进行了表征。最后,对样品的透气性和物理性能进行了分析,以了解皮革的舒适性。结果表明,10% PCMs浸渍对皮革的热性能有显著影响,但对皮革的舒适性没有影响。
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