The alcohol-resistant series of black conductive fabrics are made by coating the surface of polyester fibers with metals such as copper and nickel, followed by treating a single surface with a black water-based graphene electromagnetic shielding coating. (1) The combination of copper and nickel provides excellent conductivity. (2) The inherent conductive properties of the graphene electromagnetic shielding coating can greatly enhance the conductivity of the composite material, achieving good shielding effectiveness in the frequency range from 10MHz to 3GHz. (3) The polymer coating is resistant to some solvents like alcohol, which can meet special process requirements. (4) The blackening treatment also has properties such as light shielding, oxidation resistance, corrosion resistance, and fingerprint resistance.

The alcohol-resistant series of black conductive fabrics are made by coating the surface of polyester fibers with metals such as copper and nickel, followed by treating a single surface with a black water-based graphene electromagnetic shielding coating. (1) The combination of copper and nickel provides excellent conductivity. (2) The inherent conductive properties of the graphene electromagnetic shielding coating can greatly enhance the conductivity of the composite material, achieving good shielding effectiveness in the frequency range from 10MHz to 3GHz. (3) The polymer coating is resistant to some solvents like alcohol, which can meet special process requirements. (4) The blackening treatment also has properties such as light shielding, oxidation resistance, corrosion resistance, and fingerprint resistance.

The 30μm insulating alcohol-resistant black conductive cloth is made by coating the surface of polyester fibers with metals such as copper and nickel, followed by treating one surface with a black water-based graphene electromagnetic shielding coating. The black insulating surface has an insulation resistance of >10¹⁰Ω and a thickness of 38±3μm. The insulating layer presents a low-matte blue-black color with a glossiness of 0.5 and stable color difference (Lab value: 26.45/-0.17/-1.12). It adopts a purely water-based and environmentally friendly coating (free of VOCs) and features excellent wear resistance and alcohol resistance. It supports direct die-cutting or composite adhesive layer processing, and is suitable for electromagnetic shielding, anti-static protection of precision electronic components, and industrial corrosion-resistant scenarios.

The 30-micron wear-resistant black conductive fabric is a high-performance composite material. It uses polyester fiber as the base material, with copper-nickel alloy coated on both sides to provide basic conductivity (surface resistance ≤ 0.05Ω), and a black water-based graphene coating applied on one side. Its core structure consists of a black wear-resistant surface (matte black) paired with a silver-gray conductive surface, offering double-sided conductive functionality. The actually measured thickness of the product is 33-34μm, featuring excellent conductive performance. Its matte black surface presents a low-gloss effect (glossiness 3.2-3.4gs) with stable color (color difference values 25.74/0.05/0.12), and special emphasis is placed on its wear-resistant property. This conductive fabric is manufactured using a pure water-based environmental protection coating process, ensuring no VOC residues and meeting safety and environmental protection requirements. The product has a width of 1100±20mm, which can be directly die-cut or laminated with adhesive tape for easy integration and application. It is suitable for electronic application scenarios such as electromagnetic shielding and grounding that require high conductivity, wear resistance and environmental protection.