Anti-Static Twill Grid Taffeta Fabric (ESD Fabric) – F820

In professional manufacturing and lab environments, static electricity is not only a comfort issue—it can become a quality risk (damage to static-sensitive items), a process risk (particle attraction and contamination concerns), and in some facilities a safety concern depending on the materials and atmosphere involved. That’s why premium B2B buyers don’t purchase “anti-static fabric” as a generic lining—they purchase it as part of a documented ESD control program that includes materials, garments, grounding, training, and verification.

F820 Anti-Static Twill Grid Taffeta is designed to fit that program-style sourcing approach: it gives procurement teams a clear spec sheet (composition, conductive pattern, resistance range, weight, width, MOQ), while providing garment factories with a stable woven structure that cuts and sews efficiently at scale.

Key Specifications

These are the core RFQ fields directly shown on the referenced product page:

What Makes F820 an “ESD / Anti-Static” Fabric?

1) Carbon conductive yarn creates a controlled discharge pathway

F820 uses 2% carbon in the construction to provide conductive pathways that help reduce static build-up and allow charges to dissipate more predictably than ordinary synthetic fabrics.

2) 0.5cm conductive grid improves uniformity and QC visibility

The 0.5cm grid is a strong B2B feature because it’s:

• Easy to document in tech packs and procurement specs

• Easy to QC visually (grid consistency across lots)

• Easy to standardize for repeat orders and multiple factories

3) Resistance range aligned with common “dissipative” expectations

The product lists 10⁶–10⁸ Ω.
Many ESD references describe “dissipative” materials in the general window around 10⁶ to 10⁹ ohms (definitions and test methods vary by application).
That makes F820 a practical choice for uniform/workwear programs that need controlled static dissipation—especially when matched to the buyer’s required test method and verification plan.

Buyer-safe note: resistance can vary with humidity, garment design, laundering cycles, and test setup—so premium programs typically verify finished garments, not only fabric swatches. IEC garment test methods explicitly cover measuring electrical resistance across garment components, seams, and cuffs.

Why Premium B2B Buyers Choose F820

Lightweight but durable: 110 gsm for daily wear + production efficiency

At 110 gsm, F820 is light enough for comfortable shift wear and layered garment systems, yet structured enough (with twill + higher density) to perform in daily uniforms and protective workwear.

Twill structure for better drape and workwear feel

The 2/3 twill weave typically provides a balanced feel that works well for uniforms: good drape, stable handling during sewing, and a professional “workwear” appearance. (Your final handfeel can also depend on finishing and garment construction.)

Clear spec sheet for fast procurement decisions

Your buyer’s procurement team needs a quick “yes/no” based on: composition, grid spacing, resistance range, weight, width, MOQ. This product page provides those decision fields directly—reducing RFQ back-and-forth and improving conversion.

Industry-targeted positioning (lab, power, oil/chemical)

The product is explicitly positioned for workwear in laboratory, power, and oil/chemical industries—which aligns with the exact buyer segments that tend to request ESD/anti-static features during sourcing.

Typical Applications

1) Industrial workwear programs

• ESD jackets, pants, coveralls

• Production floor uniforms in static-managed zones

• Maintenance uniforms where static control is part of the purchasing checklist

2) Laboratory & controlled environments

• Lab coats and inspection coats

• ESD smocks for controlled work areas

• Lightweight outer layers or internal panels depending on garment design

3) Oil / chemical industry workwear systems

Where anti-static workwear is specified to reduce electrostatic risk, fabrics are usually evaluated not only by resistance targets but also by garment design and how the garment integrates into the facility’s earthed system and procedures. (If your end market requires EN 1149 PPE certification, please specify it early—see below.)

Standards & Testing Guidance

ESD performance is a “system,” not a single fabric claim

IEC 61340-5-1 describes requirements for an ESD control program (planning, implementation, and maintenance).
Industry guidance also emphasizes that ESD programs typically include training and compliance verification/auditing, not only materials.
For B2B brands, this is important messaging: it keeps your product page credible and reduces disputes caused by over-claiming.

Finished-garment resistance testing matters

IEC 61340-4-9 provides standard test methods for garment resistive characterization, including point-to-point and sleeve-to-sleeve methods and consideration of seams/cuffs.
If your customers require audit-level results, plan a sampling step where the finished coat/smock/coverall is tested under the required method.

If your end use is explosive-risk (ATEX-type), confirm EN 1149 route

EN 1149 is a commonly referenced series for electrostatic properties of protective clothing; EN 1149-5 specifies performance requirements for protective clothing that dissipates electrostatic charges as part of a total earthed system (commonly relevant in explosive-risk environments).
If your program needs EN 1149 certification, share the exact part(s) required and any additional PPE standards needed for your market.

OEM / Customization Options

For high-quality B2B brand customers, customization and program control are often what closes the order:

• Color customization (uniform colors; shade band for repeat orders)

• Grid layout confirmation (appearance consistency across garment panels)

• Roll length, packing, and labeling aligned to cutting-room workflow

• Lot tracking & QC plan for long-term supply stability

• Testing alignment: fabric swatch checks + garment prototype testing per your customer’s method

Ordering Information

• MOQ: 1000 meters

• Payment: TT, L/C, Western Union

For premium programs, best practice is:

1. approve shade + handfeel with lab dips / samples

2. build a prototype garment and verify the required resistance method

3. lock bulk supply with lot controls (repeatability is the real “premium” value)

Call to Action (RFQ / Sample / Technical Sheet)

If you’re sourcing Anti-Static Twill Grid Taffeta (F820) for workwear or laboratory garments, send your use case and test requirements. We’ll reply with a detailed offer, sampling options, and a practical testing plan that matches your customer audits.

Fast RFQ checklist (recommended):

• garment type (lab coat / smock / coverall / jacket)

• target resistance requirement + test method (fabric vs garment)

• color + annual forecast

• delivery destination + packing preferences

• any required standards (IEC 61340 / EN 1149, etc.)

FAQ

Q1: What is the standard composition of F820?
98% polyester / 2% carbon conductive yarn.

Q2: What does “0.5cm conductive space” mean?
It refers to the spacing of the conductive grid—listed as 0.5 cm on the product page.

Q3: What resistance range is listed for this ESD fabric?
The product page lists 10⁶–10⁸ (Ω as shown).

Q4: Is the fabric alone enough to guarantee ESD compliance?
Usually not. ESD control is typically managed through an ESD control program that includes procedures, training, and compliance verification.

Q5: Do buyers need garment-level testing?
Often yes—especially for audits. IEC garment test methods cover measuring resistance across garment components including seams and cuffs.

Q6: What are the standard weight and width?
110 gsm and 148 cm width.

Q7: What is the weave/style?
It is 2/3 twill.

Q8: What is the MOQ and payment term?
MOQ is 1000 meters; payment options listed include TT, L/C, Western Union.

Q9: Which industries is it designed for?
The page notes use in workwear for laboratory, power, and oil/chemical industries.

Q10: If we need EN 1149 compliance, can this fabric be used?
Potentially—but EN 1149 compliance depends on the finished garment, the design, and how it’s used as part of a total earthed system. Confirm the exact EN 1149 parts and your customer’s test route before finalizing sourcing.