Developing a scalable process is critical to manufacture conductive fabric for commercial applications. This paper describes a scalable coating process that is compatible with existing industrial finishing processes of fabrics. In this process, the fabric is continuously dipped in water-based metal salt and the reducing agent solution to impart conductive particles on the fiber surface. After 10 consecutive cycles of dip coating, the fabric shows 6 Ω/in. of resistance. The process is tuned to minimize process cost and material cost, and maximize the durability of the fabric. This paper also introduces an easy protective coating technique of the conductive fabric that improves the durability of the conductive fabric without sacrificing the comfort properties of textile fabrics such as breathability and flexibility. The encapsulated conductive fabric shows good air-permeability and it is 6.96 cm³/cm²/s. Moreover, the conductivity of the encapsulated fabric is quite stable after four accelerated washing cycles. Additionally, the fabric remains conductive on the surfaces and is suitable for using as a conductive track and connectors.

开发可扩展的工艺对于制造用于商业应用的导电织物至关重要。本文介绍了一种可扩展的涂层工艺，该工艺与现有的织物工业整理工艺兼容。在该过程中，将织物连续浸入水基金属盐和还原剂溶液中，以在纤维表面上赋予导电颗粒。在连续10个浸涂循环之后，织物显示6Ω/ in。抵抗。调整该过程以最小化过程成本和材料成本，并最大化织物的耐久性。本文还介绍了一种导电性织物的易防护涂层技术，该技术可在不牺牲织物的舒适性（如透气性和柔韧性）的情况下提高导电性织物的耐久性。³ / cm ² / s。此外，在四个加速的洗涤循环后，封装的织物的电导率相当稳定。另外，该织物在表面上保持导电，并且适合用作导电轨道和连接器。