Carbon Fiber PU Fingertip Coated Gloves
Version：PUTF-CARBON
Carbon fiber PU fingertip coated gloves are specially designed for electronics manufacturing, precision assembly, and ESD-sensitive working environments. The gloves are made from conductive carbon fiber blended yarns with polyurethane (PU) coating on the fingertips, offering excellent anti-static performance, grip, abrasion resistance, and tactile sensitivity.
Product Features
 * Excellent Anti-Static Performance
Conductive carbon fiber effectively dissipates static electricity, helping prevent electrostatic damage to sensitive electronic components.
* PU Fingertip Coating
The PU-coated fingertips provide enhanced grip and better handling stability while reducing hand fatigue during long working hours.
 * High Dexterity and Flexibility
 Lightweight and ergonomic design ensures excellent finger sensitivity and operational precision.
 * Low Dust Generation & Cleanroom Friendly
Suitable for cleanroom and dust-free environments, minimizing contamination risks.
* Breathable and Comfortable
Breathable knitted structure allows comfortable wear for extended periods. ⸻
Applications in the Electronics Industry
Carbon fiber PU fingertip coated gloves are widely used in electronics manufacturing and high-tech industries, especially in ESD-controlled environments.
Main Application Areas
* Semiconductor manufacturing and packaging
* PCB assembly lines
* SMT processing and assembly
 * Precision electronic component assembly
* LCD/OLED panel manufacturing
* Mobile phone and computer production
* Optical instruments and precision equipment handling Advantages in Electronics Applications

Static electricity can seriously damage sensitive electronic components, resulting in product failure and reduced production yield. Carbon fiber PU fingertip coated gloves effectively control electrostatic discharge from the human body, helping protect electronic devices and improve product reliability.
In addition, the PU coating provides excellent anti-slip performance, enabling workers to handle small and delicate components more accurately and efficiently during precision operations.