Anti-Static Plain Stripe Taffeta Fabric (ESD Tissu) – F610

In ESD-sensitive environments, static isn’t just a comfort issue—it can become a risque qualité (handling sensitive components), un risque de processus (unwanted attraction of particles), and in some industries a safety concern. Professional buyers don’t treat ESD clothing as a “basic uniform.” They treat it as a controlled input within a broader ESD program, où matériels, conception de vêtements, mise à la terre, et vérification all matter.

This product (F610) is built for that type of procurement: spécifications claires, approvisionnement évolutif, and a structure that garment factories can cut and sew efficiently. Le plain stripe conductive design et le 10⁶–10⁸ Ω resistance positioning make it easy for brands and OEMs to align fabric selection with internal ESD requirements and customer audits—without overcomplicating sourcing.

Spécifications clés

• Nom de l'article: Anti-statique tissu taffetas de bande simple, ESD Tissu

• Numéro d'article.: F610

• Matériel: 99% polyester, 1% carbone

• Nombre de fils: 75D x 75D

• Poids: 90 gsm

• Densité: 160 × 89

• Largeur: 148 cm

• Style: Plaine

• Conductive Space: 0.5 cm

• La résistance: 10⁶–10⁸ (Ω comme indiqué)

• MOQ: 1000 mètres

• Paiement: TT, L / C, Western union

• Typical Use Mentioned: vêtements de laboratoire

Qu'est-ce qui rend ce tissu « ESD ? / Antistatique »?

1) Carbon conductive yarn integrated into the fabric

The fabric’s ESD performance is driven by fil conducteur de carbone (1% carbone), which provides a conductive pathway so charges can dissipate more predictably compared with ordinary synthetic textiles.

2) Plain stripe conductive pattern (0.5espacement en cm)

The conductive element is arranged in plain stripes, avec 0.5espacement conducteur en cm.
Pour les acheteurs B2B, this is valuable because it’s:

• easy to document in a tech pack/spec sheet,

• straightforward for QC checks,

• consistent for repeat programs.

3) Resistance range designed for controlled dissipation

Les listes de produits 10⁶–10⁸ Ω.
As a reference point, ESD industry resources commonly describe “dissipative” ranges in the neighborhood of >10⁶ et <10⁹ ohm (exact requirements vary by standard and application).
That makes this fabric a practical choice for many lab and ESD-workwear requirements—provided your program confirms the exact test method and acceptance window.

Why Premium B2B Buyers Choose F610

Lightweight 90 gsm for comfortable, compliance-friendly wear

À 90 gsm, the fabric supports lightweight garments that workers are more likely to wear correctly for full shifts—an overlooked factor that directly affects ESD compliance in real operations.

Faire le ménage, spec-driven sourcing for brands and uniform programs

Procurement teams want clear fields: composition, conductive spacing, resistance, poids, largeur, fil. This page provides those “decision fields” directly, which shortens RFQ cycles and makes it easier to compare suppliers on an apples-to-apples basis.

Stable base structure for OEM garment production

Avec 75D×75D yarn and a lightweight woven build, the fabric is suitable for large-scale cutting and sewing of lab garments and ESD smocks, where efficiency and consistent handling matter.

Applications typiques

The product is described as widely used for vêtements de laboratoire.
In real B2B development, this category often includes:

• Blouses de laboratoire ESD / blouses for inspection and controlled areas

• Light ESD jackets and over-garments

• Workshop uniforms in ESD-managed zones

• Protective apparel layers where static control is a procurement requirement

If you share your end-use scenario (laboratory apparel vs electronics assembly vs cleanroom-related), the fabric selection can be matched to your comfort needs, durability expectations, and verification route.

Normes & Testing Guidance

ESD fabric is only one part of ESD control

IEC guidance emphasizes ESD control as a program, including grounding and verification—not fabric alone.
This is important for brands: avoid over-claiming “ESD safe” purely from fabric. A correct approach is:

• specify fabric performance (par ex., resistance range, conductive pattern),

• test finished garments according to required method,

• apply garments within the facility’s ESD program.

Garment testing matters (not just fabric swatches)

IEC 61340-4-9 describes test methods for measuring résistance électrique des vêtements utilisé pour les applications de contrôle statique (par ex., sleeve-to-sleeve and point-to-point methods).
If your customer audit requires garment-level results, plan sampling so your garment factory can test the finished coat/smock, y compris les coutures, menottes, and closures.

If your environment is ATEX-like (explosive atmospheres)

If you’re supplying oil/chemical or explosive-risk areas, you may encounter EN 1149 requirements for protective clothing electrostatic properties. This is a different procurement route than typical electronics EPAs—so please specify your market and standard early.

OEM / Options personnalisées

For premium B2B buyers, customization is often what closes the deal. Common requests include:

• Options de couleur (uniform systems, brand palettes)

• Stripe layout direction (warp/weft preferences in tech packs)

• Largeur / longueur du rouleau / emballage aligned to cutting-room efficiency

• Contrôles de cohérence des lots (bande d'ombrage, suivi des lots pour les commandes répétées)

• Test alignment to your ESD program (fabric tests + garment tests)

Ordering & Conditions commerciales

• MOQ: 1000 mètres

• Paiement: TT, L / C, Western union

For brand programs, the best practice is: approve a small sampling run first (for garment build + essai), then lock bulk with lot controls.

Appel à l'action (Demande de prix / Échantillon / Fiche technique)

Si vous recherchez ESD stripe taffeta fabric for laboratory garments or ESD-controlled apparel, send your application, couleur, quantité commandée, and required test standard/method. Nous vous répondrons par un offre détaillée, options d'échantillonnage, and program recommendations.

To get the fastest quotation, include:

• garment type (lab coat / smock / veste)

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

• couleur + annual volume

• delivery destination and required packaging

FAQ

T1: What is the standard composition of F610?
99% polyester + 1% carbone conductive yarn.

T2: What does “0.5cm conductive space” mean?
It refers to the spacing of the conductive stripe pattern—listed as 0.5 cm.

T3: What resistance range is listed for this ESD fabric?
Les listes de produits 10⁶–10⁸ (Ω as shown).

T4: Is ESD fabric alone enough to guarantee ESD compliance?
Généralement non. ESD control is typically managed through an ESD program (procédures, mise à la terre, vérification) in addition to garments.

Q5: Do we need garment-level testing?
Often yes—especially for audits. IEC 61340-4-9 describes garment resistance characterization methods used for static control garments.

Q6: Quels sont le poids et la largeur standard?
90 gsm et 148 cm largeur.

Q7: What is the standard yarn count and density?
75D×75D, densité 160×89.

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

Q9: Can you support bulk uniform programs with repeat orders?
Yes—share your annual forecast, color requirements, and testing route. We’ll propose a sampling + lot control plan suitable for repeat seasons.