Composite copper-plated strips and conductive fabrics can both shield electromagnetic waves, but the shielding effect parameters are affected by different interference environments, frequencies, and intensities. Selection can be made based on the actual application scenario.

The conductive adhesive and conductive substrate form a complete conductor, capable of bonding with any metal surface to complete electrical connections and seal gaps; used for sealing EMI shielding rooms, joints of enclosures and electronic equipment, wrapping cables for shielding, providing a reliable grounding surface, and offering electrical contact for surfaces that cannot be焊接.

The copper-plastic composite tape is available in single and double conductive varieties. It is primarily used in the manufacturing of computer monitor cables, peripheral wires, transformers, central air conditioning pipelines, exhaust hoods, refrigerators, water heaters, and other pipeline joints. It also serves as an essential material in the electronic industry, isolating electromagnetic interference during high-frequency transmission in precision electronics, computer equipment, wires, and cables.

Conductive fabrics are used in professional shielding workwear for high radiation work in electronics and electromagnetism fields, as well as for shielding room fabrics. They are also employed in the IT industry for shielding components, such as popular touchscreen gloves and radiation-blocking curtains. Moreover, the conductive fabrics are lined with high-elastic PU foam, which, after precision processing, forms conductive foam with excellent electromagnetic wave shielding properties. They can be cut to various shapes and sizes to meet specific requirements and are widely used in EMI/EMC prevention and control for various electronic products.

Standard electromagnetic shielding usually employs shielding mesh. For wires, it is wrapped with a shielding copper wire mesh. For specific components, a shielding cover is used to encase them, or absorbent materials are directly applied to absorb the interfering electromagnetic waves.