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Halocarbon® 600
Halocarbon® 600 is a unique, solid polychlorotrifluoroethylene wax engineered by Halocarbon for its excellent resistance, low volatility, and high thermal stability. It delivers durable, nonreactive performance in demanding applications.
Appearance: Solid/wax Color: White Melting point, °C: >57 Boiling point, °C: >300 Density, g/mL @ 20°C: 1.98 Water solubility: Insoluble Decomposition temperature, °C: ≥300 CAS No 9002-83-9
Primary Chemistry:
Halocarbon® 600 is a unique, solid polychlorotrifluoroethylene wax engineered by Halocarbon for its excellent resistance, low volatility, and high thermal stability.
Halocarbon® 600 Wax is a premium fluorinated wax designed for applications that demand superior performance properties. Manufactured from polychlorotrifluoroethylene (PCTFE) (CAS No. 9002-83-9), this specialty wax offers outstanding chemical inertness to reactive chemicals and gases, making it ideal for use in protective coatings, sealing compounds, mold release systems, and lubricant formulations. Its high molecular weight enhances film durability and stability, providing a long-lasting service life.
Specifications
Appearance: Solid/wax Color: White Melting point, °C: >57 Boiling point, °C: >300 Density, g/mL @ 20°C: 1.98 Water solubility: Insoluble Decomposition temperature, °C: ≥300 CAS No 9002-83-9
Primary Chemistry:
Halocarbon® 600 is a unique, solid polychlorotrifluoroethylene wax engineered by Halocarbon for its excellent resistance, low volatility, and high thermal stability.
Features & Benefits
Lubricating wax
Unique molecular structure
PCTFE-based
Chemically inert
High molecular weight
High thermal stability
Nontoxic
Nonflammable
Nonreactive
Low vapor pressure
Superior stability
Excellent thermal stability over a wide temperature range
Good heat transfer properties
Excellent lubrication
High dielectric strength
Low compressibility
Compatible with most plastics, metals, and elastomers
Highly controlled polymerization development
Problems Solved
Thermal stress and fluid degradation in high-temperature conditions High volatility of traditional fluids such as hydrocarbons, silicones, etc. Poor safety properties of other lubricants and fluids containing hazardous ingredients Poor material compatibility of fluids with plastics, polymers, metals, or elastomers Reduced operational efficiency from the chemical breakdown of fluids Rust or corrosion of equipment parts Breakdown of lubricants and fluids in reactive chemical systems Hazardous reactions in oxygen, chlorine, or other reactive gases