IOTA Silicone Oil(Anhui) Co., Ltd.
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In fields such as aerospace, military equipment, nuclear industry, and specialty vehicles, coating materials must not only withstand high-temperature impacts but also possess excellent weather resistance, corrosion resistance, and electrical stability. IOTA 6053G Phenyl Silicone Resin, with its high-purity phenyl structure, stable high-temperature performance, and comprehensive environmental adaptability, serves as the core base material for specialty functional coatings and high-end equipment protection.
Why Choose IOTA 6053G
High-Purity Phenyl Structure, Stable Performance
Optimized phenyl content design, endowing the resin with excellent thermal stability and weather resistance
Stable molecular structure at high temperatures, maintaining good adhesion and integrity of the coating film
Wide Temperature Range Adaptability
Long-term temperature resistance of 400-600°C, with short-term tolerance to even higher temperatures
Excellent thermal shock resistance, suitable for rapid heating and cooling cycles
Superior Environmental Tolerance
Resistant to UV aging, salt spray corrosion, and chemical media erosion
Hydrophobic and moisture-proof, suitable for marine, high-humidity, and contaminated environments
High Purity, Stable Processing
Acid value ≤4 mgKOH/g, low impurity content, good batch-to-batch stability
Good compatibility with various fillers and pigments, offering formulation flexibility
Technical Specifications
| Parameter | Specification |
|---|---|
| Appearance | Light yellow to yellow transparent liquid, milky sheen permitted |
| Solid Content | 50±1% |
| Viscosity (No. 4 Cup) | 20-60 seconds |
| Acid Value | ≤4 mgKOH/g |
| Film Hardness | ≥1H (after complete curing) |
| Temperature Range | 400-600°C |
Main Application Areas
Aerospace
High-temperature protective coatings for engine compartments and exhaust nozzles
Heat-resistant and stealth functional coatings for aircraft surfaces
Thermal protection layers for spacecraft re-entry
Military Equipment
Heat-resistant coatings for exhaust systems of tanks and armored vehicles
High-temperature protection for missile launch tubes and shipboard equipment
Heat-resistant insulation encapsulation for military electronic devices
Nuclear and Specialty Industries
High-temperature protective coatings for nuclear facility emergency equipment
Internal wall protection for specialty reactors and high-temperature experimental equipment
Anti-corrosion coatings for high-temperature areas on offshore platforms
Curing and Usage Guidelines
Curing Process
High-temperature baking curing: 200-220°C for 1 hour
Curing parameters can be adjusted based on workpiece size and coating thickness
Application Recommendations
Substrates should be sandblasted or polished to ensure cleanliness and roughness
2-3 coats recommended, with 10-15 minutes flash-off between coats
Conduct small-scale tests before use to determine optimal process parameters
Usage Precautions
Diluents must be free from water, sulfur-containing compounds, and pyridine impurities
Ensure good ventilation in the application environment, strictly prohibit open flames, and enhance labor protection
Keep equipment and tools clean to prevent contamination with dust or moisture
Strictly avoid contact with acids, alkalis, and amine compounds during storage
Packaging and Storage
| Parameter | Description |
|---|---|
| Packaging Specifications | 20 kg small white iron drum / 200 kg large white iron drum |
| Storage Conditions | Ventilated, cool, dry place, avoid direct sunlight |
| Storage Period | Tentatively one year |
| Safety Notes | Keep away from heat sources and open flames, prevent acid and alkali contamination |
From Deep Space to Deep Sea, from Routine Protection to Extreme Conditions—IOTA 6053G, with Its Stable Phenyl Structure, Provides Reliable Coating Assurance for Every Ultimate Challenge.
