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MWF H+
MWF H+ is a chemically inert, synthetic PCTFE metalworking fluid formulated with high viscosity. It contains a synthetic polychlorotrifluoroethylene base and provides excellent lubrication and machinability to a wide range of applications.
Appearance: Water white liquid Density 25°C, g/cm³: 1.90 Specific Heat 25°C, J/(g·K): 1.0 CAS No 9002-83-9
Primary Chemistry:
MWF H+ is a chemically inert, synthetic PCTFE metalworking fluid formulated with high viscosity.
MWF H+ is a high-viscosity polychlorotrifluoroethylene (PCTFE)-based metalworking fluid developed for machining, forming, and lubrication applications that demand maximum load-carrying capacity and high film strength. Engineered by Halocarbon to simplify the machining of refractory metals and alloys, MWF H+ is safe for use with various refractory metals and alloys, such as tungsten, tantalum, molybdenum, niobium, C103, TZM, titanium, and more. MWF H+ exhibits excellent thermal tolerance, maintaining lubrication under elevated temperatures and helping to minimize metal-to-metal contact, tool wear, and tool grab during heavy-duty applications. Its chemically inert, nonflammable formulation provides excellent resistance to oxidation and thermal degradation and makes it suitable for use in hazardous chemical processes and operations that involve strong acids or bases, flammable solvents, corrosive chemicals, hydrocarbons, strong oxidizers, and reactive gases.
Specifications
Appearance: Water white liquid Density 25°C, g/cm³: 1.90 Specific Heat 25°C, J/(g·K): 1.0 CAS No 9002-83-9
Primary Chemistry:
MWF H+ is a chemically inert, synthetic PCTFE metalworking fluid formulated with high viscosity.
Features & Benefits
Metalworking fluids
Medium viscosity
Lightweight
Excellent lubricity
Better surface finish
Heat transfer properties
Increased manufacturing output
High thermal stability
PCTFE-based
Superior machinability
Excellent surface finish
Excellent thermal tolerance
Increased machining efficiency
Improved product quality
Reduced operating costs
Nontoxic
Chemically inert
Nonreactive
Nonflammable
Excellent lubricating properties
No sludge formation
Low surface tension
Wide material compatibility
Problems Solved
Thermal stress and fluid degradation in high-temperature conditions Poor machinability of metalworking equipment due to improper lubrication 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
Applications
Metalworking operations Traditional CNC machining operations Metal forming Tube drawing Wire drawing Metal removal operating