In this work, the specimen of the fabrics (polyester/viscose blend) was prepared. At first, the samples were placed under microwave radiation at different times, and then the optimum condition of treated fabrics (8 min) was selected for treatment. The physical properties and surface morphology of Cu nanoparticle and multi-wall carbon nanotubes (MWCNTs) with different percentages were measured using dispersing agent, washing performance, stability, and physical properties of the fabric. The image of surface morphology’s specimens was also photographed by scanning electron microscopy (SEM). Afterwards, we measured the specimens’ electrical conductivity properties, according to AATCC 2005-76 standards, and subsequently, K/S, %R, and Lab value of specimens was analyzed using reflection spectrophotometer. In fact, the results indicated that optimum electrical resistivity, which was also the aim of the study, is 9% one weight of fabric (o.w.f.) nanoparticles on the fabric and that electrical resistivity for the values of 9% o.w.f. for CNT is slightly greater than Cu.

中文翻译：

---

铜纳米粒子和多壁碳纳米管处理聚酯/粘胶织物的导电性能比较

在这项工作中，准备了织物的样品（聚酯/粘胶混合物）。首先，将样品在不同时间置于微波辐射下，然后选择处理过的织物的最佳条件（8分钟）进行处理。使用分散剂，洗涤性能，稳定性和织物的物理性能，测量了不同百分比的铜纳米颗粒和多壁碳纳米管（MWCNT）的物理性能和表面形态。表面形态标本的图像也通过扫描电子显微镜（SEM）拍摄。之后，我们根据AATCC 2005-76标准测量了样品的电导率特性，随后测量了K / S，％R，并使用反射分光光度计分析样品的实验室值。实际上，结果表明，最佳电阻率（也是该研究的目标）是织物上重量为9％owf的织物（owf）纳米粒子重量的9％，而CNT的9％owf值则稍大比铜