Products
01
Copper Nickel Conductive Mesh
product details
specification
| Product Name | RFID Conductive Mesh |
| Material Contents | Polyester/Copper/Nickel 70:16:14 |
| Material | Base Material: Polyester |
| Coating layer: Copper-Nickel | |
| Width | 110cm |
| Weight/m2 | 80g/m2 |
| Shielding effectiveness | 10Mhz -3Ghz: >60dB |
Characteristics
The RFID conductive mesh stands out due to its exceptional electrical properties, offering ultra-low resistance and superior conductivity. This makes it ideal for applications where efficient signal flow is crucial. The material’s high transparency allows for minimal impact on light transmission, making it suitable for environments that require clear visibility. The mesh’s excellent air permeability ensures comfort and ventilation, making it adaptable for wearable technologies and other applications where breath-ability is important. In addition to its electrical properties, the material provides excellent shielding performance, protecting against electromagnetic interference (EMI) and ensuring the integrity of RFID signals. Its ease of processing means it can be seamlessly integrated into various designs and applications without compromising on performance.
application
The RFID conductive mesh is widely used in industries where electromagnetic interference protection and signal integrity are paramount. It is commonly employed in RFID bag, cases, RF shielding clothing、tents, RFID phone、laptop、 bags, and other electronic applications where shielding from external electromagnetic waves is needed. The mesh is also used in protective clothing, including garments designed for anti-radiation and EMI shielding purposes. In addition, it is valuable in the automotive, aerospace, and medical sectors, where it is utilized for shielding electronic components, ensuring reliable signal transmission, and protecting sensitive devices from external interference. The easy processing of the mesh makes it an attractive material for manufacturers looking for high-performance, emi shielding visible components.
