Twilled Weave Stainless Steel Wire Mesh For Shielded Enclosure And Room
EMI/RFI Shielding solutions balance electrical conductivity, dielectric permittivity, magnetic permittivity, and physical geometry to inhibit the transmission of EMI/RFI. Generally, shielding first deflects electromagnetic waves with reflective surfaces which then heats the shield, making moderate electrical and thermal conductivity important characteristics of an EMI/RFI Shield.
Product Features |
All mesh gasket’s cross section are rectangular, round,round with tail and double round with tail. |
Materials are available intin-plated phosphor |
Elastomeric core has various function(anti-chemistry, thermal resistance and water proof) for elasticity. |
Selection shape |
Solid Round Type |
Solid Rectangular Type |
Hollow Round Type |
Solid Round with Fin Type |
Hollow Round with Fin Type |
1. Material:
2. Characteristics: non-magnetic, wear resistance
3. Application: Copper mesh frequently utilized in applications requiring shielding of electromagnetic interference (EMI). The reduction or exclusion of electromagnetic interference is dependent upon the signal amplitude and frequency in relation to the many combinations of mesh count wire diameter and weaving materials available.
4. Production rang:
Product Description
• Material: SUS302,201, 304, 304L, 316, 316L, 310, 310S etc
• Weave: plain, twill, dutch
• Mesh: 1-2800 mesh
• Application: EMI/RFI shielding, Faraday cages, RF window,
Specification list for faraday cage shielding stainless steel wire mesh
|
Mesh/inch |
Wire dia(mm/inch) |
Aperture(mm) |
Stainless steel wire mesh |
100 |
0.089/0.0035 |
0.17 |
110 |
0.1060/0.0040 |
0.1295 |
|
120 |
0.0904/0.0037 |
0.1168 |
|
150 |
0.0660/0.0026 |
0.1041 |
|
160 |
0.0635/0.0025 |
0.0965 |
|
180 |
0.0584/0.0023 |
0.0838 |
|
200 |
0.0533/0.0021 |
0.737 |