Antistatic and anti-skid combat boot composite coating fabric and preparation method thereof
By combining polyionic liquid-polysiloxane interpenetrating network elastomer with COF-AgNWs/PPy composite aerogel, the problems of antistatic performance degradation and unstable anti-slip effect of traditional combat boot coating fabrics are solved. A stable conductive network and micro-nano anchoring structure are achieved, which improves the adhesion and anti-slip performance of the coating and is suitable for industrial production.
CN122190036APending Publication Date: 2026-06-12GUIZHOU PUAN MANJI CLOTHING CO LTD
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- GUIZHOU PUAN MANJI CLOTHING CO LTD
- Filing Date
- 2026-05-13
- Publication Date
- 2026-06-12
AI Technical Summary
⚠Technical Problem
Traditional combat boot coating fabrics suffer from problems such as rapid degradation of antistatic properties, unstable anti-slip effects, weak adhesion between the coating and the substrate, and low industrial production efficiency.
⚗Method used
By combining polyionic liquid-polysiloxane interpenetrating network elastomer with COF-AgNWs/PPy composite aerogel, a stable conductive network and micro-nano anchoring structure are constructed through electrospinning as the underlayer and stepwise curing processes, thereby improving the adhesion and anti-slip performance of the coating.
🎯Benefits of technology
It achieves long-lasting antistatic and anti-slip properties, and the coating remains stable under frequent use, making it suitable for industrial mass production.
✦ Generated by Eureka AI based on patent content.
Smart Images
Figure CN122190036A_ABST
Abstract
The application discloses an antistatic and antiskid combat boot composite coating fabric and a preparation method thereof. In the application, the interpenetrating network elastomer constructed by polyionic liquid and polysiloxane not only retains the excellent weather resistance and flexibility of polysiloxane, but also provides the coating with sustained antistatic ability by means of the ionic conductive characteristics of polyionic liquid. The three-dimensional conductive network formed by the COF-AgNWs / PPy composite aerogel can quickly discharge the static electricity generated by the friction between the human body and the fabric, and avoid the safety hazards caused by the accumulation of static electricity. At the same time, the multi-stage pore structure of the composite aerogel can increase the micro-roughness of the coating surface, and the hydrophobic characteristics of the fluorine-modified acrylic resin and the perfluoropolyether-modified siloxane can improve the adhesion of the fabric on the wet and slippery ground, and effectively reduce the risk of slipping down when walking. The compatibilizer and the light stabilizer in the coating can also strengthen the interface bonding of each component, delay the aging speed of the coating, and enable the fabric to maintain long-term performance stability in the use scene of frequent bending and friction.
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