Anti static ESD gloves manufacturer in china
M-tide is a leading manufacturer of knitted ESD gloves. We produce anti-static conductive gloves incorporating carbon, copper fiber, and nylon materials. These gloves dissipate static electricity from the human body and block static charges, protecting precision instrument manufacturing and component assembly from electrostatic discharge damage. They also offer cut resistance, touchscreen compatibility, and impact resistance. We are CE certified. OEM/ODM customization is available, with products exported globally. Competitive pricing is offered. Free samples are provided. Contact our experts for the optimal ESD anti-static glove solution.
Passes international electrostatic standards
Provides superior grip performance
Excellent wear resistance for extended service life
Product Specifications
ESD gloves are specialized protective gloves designed to prevent electrostatic discharge. They offer flexibility and comfort. The glove base is made from high-performance fibers. These usually include conductive options like carbon fiber, copper fiber, nylon, polyester, and spandex. The glove coating is either PU or nitrile.
We offer 100% custom manufacturing to meet your diverse requirements and additional functional needs. Low minimum order quantities apply, with delivery times ranging from 30 to 60 days. Contact our experts to develop the optimal ESD glove solution for your application.
Anti-Static Impact Resistant Gloves
Why Choose Us?
We are a professional ESD glove manufacturer in China. We supply high-quality gloves and export globally. Our factory features a complete production line with over 10 engineers and 10 years of ESD glove R&D experience.
- Superior Quality: CE certified. Gloves undergo anti-static testing. Strict quality control.
- Ample Inventory: Extensive stock of liner gloves to swiftly fulfill your custom orders.
- Competitive Pricing: In-house production reduces manufacturing costs, enabling you to rapidly capture market share.
- Prompt Response: Quick resolution for pre-sales and post-sales inquiries.
What is the core material of anti-static gloves?
M-tide produces cut-resistant gloves using three main materials: high-performance polyethylene, fiberglass, and stainless steel composite yarn. This ensures reliable protection for high-risk activities.
Polyester + Conductive Fibers
Material: Polyester fiber as base, evenly woven with conductive fibers (spacing 4-10mm).
Uses: Electronics assembly, semiconductor workshops, cleanrooms requiring strict ESD protection, as basic anti-static gloves.
Advantages: Stable ESD performance, durable, lint-free, surface resistance 10⁶-10⁹Ω, cost-effective, suitable for long wear.
Nylon + Carbon/Copper Fibers
Material: High-elastic nylon yarn base, blended with carbon or copper conductive yarns (common ratio 80% nylon + 20% conductive).
Uses: Precision electronics handling, PCB assembly, inspection where breathability and ESD are needed, as base or lining.
Advantages: Excellent elasticity, breathable comfort, sweat absorption without stuffiness, lasting ESD, washable, no lint, lightweight and flexible.
PU Polyurethane Coating
Material: Polyurethane (PU) resin coated on palm or fingertips, often with conductive additives.
Uses: Electronics assembly, precision part gripping, cleanroom tasks needing anti-slip and no fingerprints, combined with nylon/polyester base.
Advantages: Superior anti-slip and wear resistance, fingerprint-free, excellent ESD, acid/alkali/oil resistant, long lifespan, high precision handling.
PVC Dotted (Dot Coating Process)
Material: PVC particles dotted on palm or fingers, typically on polyester or nylon base.
Uses: ESD tasks needing strong grip, like handling slippery parts, assembly lines to prevent slippage.
Advantages: Significantly improves grip and friction, strong hold, low cost, reliable ESD, suitable for medium-heavy use, no particle shedding.
Custom ESD Glove Options:
Custom ESD gloves can be tailored to specific work environments and functional requirements. From core materials to intricate details, M-tide experts ensure your safety and reliability.
We provide customized ESD glove solutions with rapid confirmation and delivery—trustworthy and dependable.
- Base Materials:
Conductive fibers including nylon, spandex, carbon fiber, copper fiber, etc. - Coating:
Nitrile, rubber, PU, latex - Coating Coverage:
Fingertips, palms, full-palm coating - Support:
Cleanroom certification - Sizes:
XXL (12), XL (11), L (10), M (9), S (8), XS (7), XXS (6) - Coating Texture:
Dotted, smooth, sanded
Uses of ESD Gloves
- Precision Electronics Assembly: Suitable for electronic component assembly. Anti-static gloves protect sensitive components from electrostatic damage.
- Petrochemical Industry: Prevents electrostatic damage to sensitive parts. Ensures personnel safety.
- Pharmaceutical Powders: Prevents glove dust adhesion. Enhances production precision and reduces waste.
- Electrical Work: ESD gloves prevent electrostatic hazards. Dissipate static electricity from hands, reducing buildup. Minimize electric shock risks from excessive static accumulation.
- Cleanrooms: ESD gloves are suitable for laboratories, food processing, and similar environments. Meet stringent cleanliness and hygiene requirements.
Frequentiy Asked Questions
What are ESD gloves?
ESD gloves are protective gloves specifically designed to address static electricity issues in manufacturing. These gloves typically incorporate conductive fibers such as:
- Stainless steel
- Silver thread
- Carbon materials
- Special coatings or additives.
These materials dissipate static electricity, minimizing damage caused by static discharge. Comfortable and soft to wear, they are an excellent choice for production safety.
Can nitrile prevent static electricity?
- Nitrile rubber does not readily generate static electricity, producing less static than latex and vinyl.
- Standard nitrile materials do not inherently possess antistatic properties. Ordinary nitrile gloves exhibit relatively high insulation.
- Technological advancements have enabled nitrile to achieve antistatic performance. Antistatic nitrile materials are now available.
- During production, environmental humidity can be appropriately adjusted to prevent excessive dryness that leads to static buildup.
What hazards does static electricity pose?
Static electricity hazards are extremely severe. Everyday static electricity exists in devices like computers and mobile phones. Without protection, electronic components can gradually deteriorate, causing devices to slow down, degrade in performance, or fail permanently. In precision electronics manufacturing, static discharge can instantly damage sensitive components like chips and LEDs, resulting in product scrap. In high-risk industries like oil extraction, chemical processing, and dusty environments, accumulated static electricity can trigger fires or explosions, threatening lives and property. Implementing effective ESD protection measures is crucial.
What are ESD gloves used for?
ESD gloves primarily serve dust prevention and safety protection functions.
Regarding dust prevention, ESD gloves are static-free and do not attract particles when handling powders. They are suitable for laboratories and cleanrooms, particularly in biological and scientific research fields.
For safety protection, ESD gloves mainly prevent static-induced explosions, especially on machine production lines.
What materials are typically used for ESD gloves?
ESD gloves are generally made from conductive materials.
- Common materials include nitrile, latex, nylon, and polyester, which effectively dissipate static electricity.
- Some gloves incorporate metal threads or carbon fiber.
- The most common material is nitrile-coated gloves.
MTIDE offers high-quality ESD gloves.
Is an ESD wrist strap required during the ESD process?
Wrist straps are primarily used to ground personnel. They consist of two parts: the wristband that wraps around the wrist and the connected grounding wire.
- These components effectively ensure worker safety.
- ESD gloves can dissipate static electricity to a certain extent. However, it is recommended to wear an antistatic wrist strap simultaneously during work to protect employee safety.
- If you have specific application scenarios, please provide them to us. Our company will offer recommendations based on the particular circumstances.
How to Conduct ESD Testing?
ESD testing complies with international professional standards. Testing requires specialized equipment.
- First, configure the ESD simulator and discharge grid to generate ESD pulses.
- Next, understand the standard’s specified test points, discharge modes, and test levels. Operate the equipment according to requirements and initiate testing.
- Finally, inspect the material post-testing and document the results.
ESD Protection Markings?
ESD markings are divided into two types: ESD Sensitivity Markings (left image) and ESD Protection Markings (right image).
- ESD Sensitivity Markings (left image) indicate that equipment is sensitive to static electricity and requires protective gear for handling.
- ESD Protection Markings (right image) are typically used on ESD protective equipment. C/D/L/S represent Conductive, Dissipative, Low-Charge, and Shielded, respectively.
How to Choose the Right ESD Gloves?
Selecting appropriate ESD gloves primarily involves considering the following aspects:
- Glove Material: Choose based on requirements. Common options include nitrile (strong grip, chemical resistance), vinyl, latex, fiber, carbon material, copper fiber, heat-resistant material, etc., ensuring conductivity and dissipation performance.
- Additional Features & Styles: PU-coated fingertips (anti-fingerprint), palm/PU dotted grips (superior slip resistance), seamless knitting (breathable comfort), etc., to match process requirements.
- Product certifications: Verify CE certification, ANSI/ESD S20.20 compliance, and third-party test reports to ensure reliable product quality and consistent anti-static performance.
- Sizing: Select appropriate sizes from S to XXXL. Measure palm circumference to ensure snug fit without constriction or looseness, enhancing operational flexibility and comfort.
What is the difference between conductive gloves and static dissipative gloves?
Both conductive gloves and static dissipative gloves are ESD gloves. Both can dissipate static electricity, but their effectiveness differs. They are typically suited for different scenarios.
| Conductive Gloves | Static Dissipative Gloves | |
|---|---|---|
| Resistance | < 10⁵ Ohms/square | 10⁵ to 10¹¹ Ohms/square |
| Charge Dissipation | Rapid charge dissipation | Slow charge dissipation |
