Due to the appearance of smart textiles and wearable electronics, the need for electro-conductive textiles and electro-conductive paths on textiles has become clear. In this article the results of a test of developed textile electro-conductive paths obtained by applying the method of screen printing pastes containing silver nanoparticles and carbon (graphene, nanotubes, graphite) are presented. Conducted research included analysis of the adhesion test, as well as evaluation of the surface resistance before and after the washing and bending cycles. Obtained results indicated that the samples with the content of carbon nanotubes 3% by weight in PMMA on substrate made of aramid fibers (surface mass of 260 g/m2) were characterized by the best adhesion and the best resistance to washing and bending cycles. Such electro-conductive paths have potential to be used in smart clothing applications.
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机译:由于智能纺织品和可穿戴电子产品的外观,纺织品上的电导纺织品和电导路径的需要变得清晰。在本文中,通过施加含有银纳米粒子和碳(石墨烯,纳米管,石墨)的丝网印刷浆料的方法,获得了所发育的纺织电导线的试验结果。进行了研究包括分析粘合试验,以及在洗涤和弯曲循环之前和之后的表面抗性的评估。得到的结果表明,通过最佳粘合性和对洗涤和弯曲循环的最佳抗性以及对洗涤和弯曲循环的最佳抗性以及对洗涤和弯曲循环的最佳抗性,表明,具有碳纳米管含量的碳纳米管含量3重量%的样品在芳族聚酰胺纤维(260g / m 2的表面质量)中。这种电导路径具有用于智能服装应用的可能性。
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