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InfinX MRO KF102
InfinX MRO KF 102 is a highly distilled perfluoropolyether (PFPE) fluid enhanced with polytetrafluoroethylene (PTFE). Halocarbon specially formulates it for a wide range of applications, offering chemical inertness, nonflammability, and long-term stability under demanding conditions.
Halocarbon’s InfinX MRO KF 102 is a PFPE-based fluorinated lubricant (CAS No. 60164-51-4) designed to deliver reliable performance in demanding operating conditions. It is nonflammable, chemically inert, and offers broad compatibility with a range of reactive materials, enhancing formulation possibilities and reducing exposure and safety risks. InfinX MRO KF 102 provides natural lubrication and wear resistance across a wide temperature range with a service temperature range of -50°C to 130°C. The high melting point and small particle size allow for exceptional performance in bearings, aerospace, automotive, chemical manufacturing, semiconductors, defense, and other industrial applications.
Specifications
Appearance: Liquid Color: Colorless, water white Odor: Odorless pH: Neutral Melting point, °C: -55 to -15 Density, g/mL: 1.82 to 1.91 Water solubility: Insoluble Decomposition temperature, °C: 350 Kinematic viscosity, cSt @ 40°C: 16 Kinematic viscosity, cSt @ 100°C: 3 Estimated Service Temperature Range (°C): -50 to 130 Oil Volatility, 22 hrs @ 121°C, %: 17 Density @ 20°C, g/cm³: 1.8 CAS No. 60164-51-4
Primary Chemistry:
InfinX MRO KF 102 is a highly distilled perfluoropolyether (PFPE) fluid enhanced with polytetrafluoroethylene (PTFE).
Features & Benefits
Fluorinated lubricant
Contains KF 100 series oils thickened with polytetrafluorethylene) (PTFE)
Superior stability
Wear resistance
Extreme temperature performance
Low volatility
Corrosion resistance
Minimal viscosity changes
Nonflammable
Nonreactive
Excellent thermos–oxidative stability
Chemical resistance
Wide material compatibility
Low vapor pressure
Chemically inert
Nontoxic
Problems Solved
Thermal stress and fluid degradation in elevated temperature conditions High volatility of traditional fluids, such as hydrocarbons, silicone, etc. 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
Applications
Aerospace applications Automotive Chemical manufacturing Semiconductors Fluids for bearings, valves, gears, O-rings, and more