Faraday shielding material

Faraday Shielding Fabric for EMI/RF Tents, Curtains & Soft-Wall Enclosures

Ag/Cu/Ni metallized woven shielding fabric for Faraday tents, temporary shielding rooms, EMI curtains and retrofit enclosure panels.

Angebot$55.00

Sold by square meter. Unit price: 55 USD per square meter.


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Metallized shielding textile

Application-driven shielding fabric for soft-wall Faraday structures.

Use this metallized woven fabric when the project calls for conductive textile coverage in Faraday tents, EMI curtains, temporary shielding rooms or retrofit enclosure panels.

Good fit when your project needs:

Flexible shielding walls, curtains or panels instead of rigid metal enclosure surfaces.
A textile material that can be evaluated for sewing, overlapping, panel fabrication or retrofit work.
Real material proof, including shielding test data and SEM-EDS elemental mapping, before RFQ or sampling.
For exact shielding values, use the tested performance chart on the right.

Tested Shielding Effectiveness

Conductive 143 shielding chart, 30 MHz to 18 GHz
Data source: SIMT report 2025F33-30-5910424001. Test standard: GB/T 30142-2013.

Built for fabric-based shielding projects

This material is best understood as a project shielding textile, not just a conductive fabric swatch. It is intended for teams comparing metallized fabrics for enclosures, curtains and panel systems where shielding data, surface conductivity and fabrication format all influence the final choice.

Faraday tents and portable RF rooms

Use as fabric wall or panel material where a soft-wall structure needs conductive coverage across large surfaces.

Shielding curtains and partitions

Relevant for curtains, soft partitions and access panels where textile handling and conductive continuity both matter.

Retrofit enclosure panels

Suitable for project teams evaluating roll goods or fabricated panels for existing rooms, benches or temporary enclosures.

Proof points buyers can review before ordering

SEM-EDS element mapping

The supplied EDS report includes separate Cu-KA, Ni-KA and Ag-LA mapping channels for the metallized woven textile.

Flat-panel shielding report

Tested by Shanghai Institute of Measurement and Testing Technology under GB/T 30142-2013.

Built for flexible handling

Selected for projects that need roll goods or fabricated panels with good dimensional stability after repeated folding and handling.

How to evaluate this fabric before choosing it

For Faraday tents, EMI curtains and soft-wall enclosures, the fabric is only one part of the shielding system. Technical buyers usually need to confirm the application format, conductive continuity and proof requirements before ordering material.

Application format

Decide whether the fabric will be used as roll goods, sewn panels, curtains, enclosure walls or retrofit liners. The final structure affects seams, overlaps and installation method.

Electrical continuity

Plan how adjacent panels, doors, edges and grounding points will remain conductive. Fabric performance cannot replace poor joining or leakage control in the finished enclosure.

Verification level

Use the shielding chart and SEM-EDS mapping as material proof, then confirm any project-specific width, GSM, thickness, compliance or fabrication requirements before release.

Material Selection Logic

Different shielding textiles solve different design problems. This comparison is meant to guide the buying conversation, not to claim one material is identical to another.

Material direction
When it may fit
What to confirm
Ag/Cu/Ni metallized woven fabric
A practical option for fabric-based Faraday structures where the buyer wants real material images, elemental mapping and flat-panel shielding data.
Confirm roll width, GSM, thickness, panel format, joining method and whether the tested frequency range matches the project requirement.
Nora Dell-type metallized fabrics
Useful as an industry benchmark category when teams are evaluating high-conductivity metallized shielding textiles for technical projects.
Compare verified datasheet values, coating structure, test method, availability and total material cost. Do not assume equivalence from the category name alone.
Silver mesh or lightweight shielding fabric
May fit applications that need airflow, translucency or lighter drape rather than a denser woven shielding panel material.
Confirm the required shielding level, mechanical handling, edge finishing and whether a mesh structure fits the enclosure design.
Finished Faraday tent or enclosure
Better when the buyer wants a complete shielding structure instead of sourcing raw fabric for fabrication.
Confirm final size, door structure, seams, grounding accessories, installation method and full-system shielding expectations.
Conductive 143 SEM-EDS elemental mapping showing Cu-KA Ni-KA and Ag-LA channels

SEM-EDS mapping separates Cu, Ni and Ag across the woven surface

The supplied SEM-EDS / EDS material is more than a single composition claim. It shows the same woven scan area through separate copper, nickel and silver channels, including Cu-KA, Ni-KA and Ag-LA maps, plus the SEM reference and combined elemental overlay.

For engineering buyers, this makes the Ag/Cu/Ni plated structure easier to evaluate because each metal is visible through its own element-specific scan.

Cu-KA mapping

Copper is shown as a separate scan channel over the woven surface, supporting the copper layer in the plated structure.

Ni-KA mapping

Nickel is mapped independently, helping technical teams verify that Ni is present rather than inferred from appearance.

Ag-LA mapping

Silver is shown in its own Ag-LA channel, giving a clearer view of the Ag-bearing component in the metallized textile.
EDS reference image includes SEM surface view, combined mapping, Cu-KA, Ni-KA, Ag-LA and O-K channels.

Verified Product Details

Specification fields are limited to supplied product material, media and test documents. Values not listed here should be confirmed before project release.

Sample name

Silver-Copper-Nickel Woven Conductive Checkered Fabric

Internal model

Conductive143#

SKU

MCON143

Plated structure

Ag/Cu/Ni plated textile structure

Shielding test standard

GB/T 30142-2013

Tested frequency range

30 MHz, 100 MHz, 300 MHz, 915 MHz, 1.5 GHz, 2.45 GHz, 3 GHz, 5 GHz, 8 GHz, 10 GHz, 12 GHz, 15 GHz, 18 GHz

Surface resistance image

Supplied product image shows 62.06 mOhm over a 50 cm measurement span.

Report number

2025F33-30-5910424001

Issue date

May 29, 2025

Testing organization

Shanghai Institute of Measurement and Testing Technology (SIMT)

Manufacturer

Shaoxing Yunjia Textile Products Co., Ltd.

Conductive 143 fabric texture, Ag/Cu/Ni woven shielding fabric
Conductive 143 surface resistance measurement over 50 cm
Confirm roll width, roll length, GSM, thickness, compliance requirements and fabrication format before final material selection.