IOTA Silicone Oil(Anhui) Co., Ltd.
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In high-temperature industrial fields such as metallurgy, petrochemicals, power generation, and aerospace, coating materials must remain stable at temperatures ranging from 400-600°C and even under more extreme conditions. IOTA 6053G Phenyl Silicone Resin, with its exceptional high-temperature resistance, excellent electrical insulation properties, and stable chemical structure, serves as an ideal base material for high-temperature coatings and Class H insulation coatings, providing lasting and reliable protection for high-temperature equipment.
Why Choose IOTA 6053G
Excellent High-Temperature Resistance
Long-term temperature resistance of 400-600°C, suitable for protecting high-temperature pipelines, furnaces, heat exchangers, and other equipment
Stable structure at high temperatures, coating film does not powder, crack, or peel off
Superior Electrical Insulation Properties
Class H insulation grade, suitable for high-temperature insulation coatings for electrical equipment such as motors and transformers
Good resistance to arcing and corona, ensuring safe operation of high-voltage electrical equipment
Comprehensive Protective Capabilities
Hydrophobic and moisture-proof, weather and chemical resistant, suitable for outdoor and corrosive environments
Cured film hardness ≥1H, combining protective and decorative functions
Strong Process Adaptability
Moderate viscosity (20-60 seconds, No. 4 cup), suitable for spraying, brushing, and dip coating
Solid content 50±1%, controllable film thickness, good economy
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 |
| Insulation Grade | Class H |
Main Application Areas
High-Temperature Industrial Equipment Protection
Anti-corrosion coatings for high-temperature pipelines, chimneys, and furnace exteriors
Surface protection for heat exchangers, reactors, and high-temperature fans
Heat-resistant coatings for petroleum cracking units and catalytic cracking equipment
Electrical Insulation and Protection
Class H insulation coatings for motor stators and rotor coils
Arc-resistant coatings for transformers and high-voltage switches
High-temperature encapsulation insulation for electronic components
Specialty Industrial Coatings
High-temperature component protection in aerospace engines
Heat-resistant stealth coating base material for military equipment
Heat-resistant coatings for automotive exhaust pipes and turbochargers
Curing and Usage Guidelines
Curing Method
High-temperature baking curing: 200-220°C for 1 hour for complete curing
Stepwise heating recommended to avoid film defects caused by rapid solvent evaporation
Dilution and Mixing
Xylene recommended as diluent solvent, ensure it is free from water and sulfur-containing impurities
Stir thoroughly before use, filter if necessary to remove mechanical impurities
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 |
| Precautions | Keep away from heat sources and open flames, avoid acid and alkali contamination |
From 400°C to 600°C, from Industrial Equipment to Electrical Insulation—IOTA 6053G, with Its Stable Phenyl Structure, Withstands the Rigors of Every High-Temperature Operating Condition.
