Anti-static Coating
Description
Technical Parameters
Huzhou Jiafu Macromolecular Material Co., Ltd. is one of the most reliable manufacturers and suppliers of anti-static coating in China. Welcome to wholesale bulk high-grade anti-static coating for sale here from our factory. We also accept customized orders.
Core Information
1. Product Introduction
Anti-static coating is a functional coating that forms an anti-static protective layer on the floor surface through ultraviolet (UV) curing technology. Its core technology involves the construction of a conductive network and precise control of the UV curing process. Thanks to its excellent anti-static performance, environmental friendliness, and long-lasting durability, anti-static UV floor coatings have become the preferred flooring solution for high-demand sectors such as electronics, healthcare, and the food industry.
2. Core Value Proposition
- Solving Static Electricity Issues: Conventional UV coatings lack anti-static functionality. In electronics and medical environments, static electricity can easily damage equipment and affect product quality.
- Core Features: Anti-static coating technology with stable surface resistance unaffected by humidity; static dissipation time ≤ 2 seconds, reducing equipment failure rate by 70%.
- Additional Assurance: Low-VOC eco-friendly formula, 5–7° matte finish, and dual-preheating process suitable for mass production.
Core Advantages of anti-static coating
1. Antistatic core technology
- Anti-static Formulation: Incorporates specialized conductive fillers to form a stable conductive network. Surface resistance meets anti-static standards and is not affected by environmental humidity (30%–80%), distinguishing it from conventional anti-static coatings that rely heavily on humidity.
- Dual Preheating & Curing: Winter dual infrared preheating (100–150°C) ensures uniform distribution of conductive fillers, providing long-lasting static-control performance (no significant change after 1 year).
- Safety Compatibility: Anti-static performance is fully compatible with wear resistance and environmental safety, without affecting normal workshop operations or personnel health.
2. Precision scene adaptability
- Target Scenarios: Electronics component workshops, medical equipment rooms, food-cleanroom production areas, and precision-instrument laboratories-typical "static-sensitive" environments.
- Compatible Substrates: Sheet/roll flooring, focusing on mainstream flooring substrates used in precision environments.
- Construction Advantages: Coating weight 11–13 g/㎡ with dual preheating (19–20 seconds each), suitable for assembly-line mass application in workshops.
3. Practicality and Compliance Advantages
- Cost Reduction: Equipment static-related failure rate decreases from 15% to 4.5%.
- Compliance Assurance: Meets anti-static standards for electronics and medical industries; third-party test reports can be provided to support qualification and certification requirements.
- Environmental Safety: Low-VOC, solvent-free evaporation, suitable for cleanroom environmental requirements.
Construction process
|
Step |
Construction content |
Curing energy / Key parameters |
Differentiation Objectives |
|
1 |
Substrate Pre-treatment |
- Thoroughly clean oil, dust; flat-texture PVC substrate preferred; ensure surface free of insulating contaminants |
Prevent insulating impurities from affecting the formation of the conductive network |
|
2 |
First Preheating |
- Infrared heating 10–20 s, 110–150°C |
First step of dual preheating; softens the substrate to improve adhesion of conductive fillers |
|
3 |
Roll Coating – Anti-static Topcoat JF-PVC9105-FJD |
- Coating weight 11–13 g/㎡ |
Precise coating ensures proper concentration of conductive fillers |
|
4 |
- Infrared heating 10–20 s, 110–150°C |
- Infrared heating 10–20 s, 110–150°C |
Second step of dual preheating; promotes formation of the conductive network |
|
5 |
Topcoat Curing |
- Energy 530–810 mJ/cm², Power 490–800 mW/cm² |
High-energy curing locks in long-term conductivity performance |
Construction Precautions
- Environmental Control: Maintain construction environment humidity between 30%–80% to avoid extreme humidity affecting conductivity performance.
- Conductivity Testing: After construction, measure surface resistance to ensure it meets anti-static requirements for the intended application.
- Storage & Handling: Store in a cool, dry place at 5–35°C. Shelf life is 12 months unopened; after opening, use within 30 days.
Technical Specifications
|
Test Project |
Test Standards |
Standard value |
Differences from other UV coatings |
|
Anti-static Performance |
Industry Anti-static Standard |
Surface resistance meets standard, dissipation ≤2 s |
Dedicated anti-static functionality; unaffected by humidity |
|
Process Technology |
- |
Dual infrared preheating |
Dual preheating promotes conductive network formation, unlike single preheating network formation, unlike single preheating |
|
Coating Weight |
- |
11-13g/㎡ |
Precise coating ensures required anti-static performance |
|
Curing Energy (Topcoat) |
- |
510-780mJ/cm² |
High-energy curing enhances long-term anti-static performance |
|
Gloss Level |
GB/T 9754-2007 |
5-7° |
Matte, non-reflective finish suitable for precision workshop environments |
|
Adhesion |
GB/T 9286-1998 |
Grade 0 |
Ensures no peeling under high-frequency use in workshops |
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