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HaloVac® 60
HaloVac® 60 is a premium fluorinated lubricating oil and precision vacuum pump fluid containing a polychlorotrifluoroethylene (PCTFE) base. It has a kinematic viscosity of 230 cSt at 20°C and a low vapor pressure of 0.0016 mmHg.
HaloVac® 60 is a synthetic fluorinated oil engineered to deliver reliable lubrication in environments where conventional hydrocarbon-based oils are unsuitable. Manufactured from polychlorotrifluoroethylene (PCTFE), it offers exceptional inertness, low volatility, nonflammability, and broad material compatibility, making it suitable for a range of applications, including valves, bearings, seals, and oxygen-compatible systems. It’s medium viscosity of 230 cSt at 20°C, HaloVac® 60 helps applications maintain a durable lubricating film while supporting smooth, efficient equipment operation. All Halocarbon® fluids are also available with anticorrosion additives upon request at no extra charge.
Specifications
Appearance: Liquid Color: Water white pH: Neutral Boiling point, °C: ≥133 Density, g/mL: 1.95 Water solubility: Insoluble Kinematic viscosity, cSt @ 20°C: 230 Kinematic viscosity, cSt @ 40°C: 52 Pour point, °C: -27 Vapor pressure, mmHg @ 25°C: 0.0016 Vapor pressure, mmHg @ 75°C: 0.063 Evaporation loss, % @ 99°C: 10% Evaporation loss, % @ 121°C: 40% Refractive index: 1.41 Heat of vaporization, kcal/mol: 15.0 CAS No 9002-83-9
Primary Chemistry:
HaloVac® 60 is a premium fluorinated lubricating oil and precision vacuum pump fluid containing a polychlorotrifluoroethylene (PCTFE) base.
Features & Benefits
Precision vacuum pump fluids
Fluorinated lubricants
Low viscosity
Low vapor pressure
Excellent sealing properties
High thermal stability
PCTFE-based
Nontoxic
Chemically inert
Nonreactive
Nonflammable
Excellent lubricating properties
No sludge formation
Low surface tension
Resistance to Lewis acids
Wide material compatibility
Problems Solved
Thermal stress and fluid degradation in high-temperature conditions Poor material compatibility of fluids with plastics, polymers, metals, or elastomers Reduced operational efficiency from the chemical breakdown of fluids Hazardous reactions in oxygen, chlorine, or other reactive gases