Flame retardant conductive carbon paste is a conductive carbon paste made by evenly distributing carbon particles in thermoplastic resin, which has good electrical conductivity and flame retardancy. After it is heated and cured, the film layer is not easy to oxidize, has stable performance, and can resist acid, alkali and solvent corrosion, playing a protective and conductive role. Its unique properties make it an ideal choice for the manufacture of heating resistors and electronic components, where reliable performance and safety are paramount.
Flame Retardant Conductive Carbon Paste
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Technical Parameters
| Product Name | Flame Retardant Conductive Carbon Paste | |
| Catalog | ALOS-SILI-384 | ALOS-SILI-385 |
| Colour | Black | Black |
| Solid Content | 55-70% | - |
| Viscosity | 5-30 Pa·s | 150-500 Pa·s |
| Firing Process | 40-60 min (180°C) | 40-60 min (180°C) |
| Sheet Resistance | ≤18 Ω/□ | ≤70 Ω/□ |
| Coating Area | 25-35 cm2/g | 25-35 cm2/g |
Performance
- Outstanding electrical conductivity. Flame retardant conductive carbon pastes exhibit excellent conductivity, ensuring efficient electrical performance in various applications.
- Stable heating performance. One of the key features of flame retardant conductive carbon pastes is their ability to maintain stable thermal properties throughout heating processes. This stability is essential in applications where temperature fluctuations could lead to material degradation or failure. These carbon pastes are designed to withstand elevated temperatures without losing their conductive properties or structural integrity.
- High adhesive strength. After curing, flame retardant conductive carbon pastes exhibit remarkable adhesive strength. This ensures that the bond between the paste and the substrate remains intact under various conditions. The high adhesive property also means that these carbon pastes can adhere effectively to a wide range of materials, including metals, plastics, and ceramics. Furthermore, once cured them are resistant to common industrial solvents, making them particularly valuable in environments where exposure to chemicals is frequent, thereby prolonging the lifespan of the applications in which they are used.
- Excellent printability for screen printing. These conductive carbon pastes are specifically formulated to be highly suitable for screen printing, a common method in the manufacturing of electronic devices and components. Their excellent printing properties enable smooth and even application, allowing for the creation of intricate designs and patterns with precision.
