Ultraforce O-RING SEAL-LUBE
ULTRAFORCE O-ring Seal-Lube installation lubricants help ensure proper sealing performance over the entire lifespan of an o-ring. By minimizing o-ring damage during installation, improving dynamic performance and extending service life, o-ring lubricants are a simple way to maximize o-ring sealing performance
Applications
- Sealant or lubricant in Airsoft Shooting Systems
- High-temperature bearing, valve, and O-ring lubricant
- Oven conveyor chain and bearing grease
- Pressure relief valve lubricant
- Any use that requires high-temperature stability, low vapor pressure, or chemical inertness
Chemically Inert
ULTRAFORCE O-ring Seal-Lube has demonstrated an exceptionally high degree of chemical inertness to many highly reactive chemicals. For example, Krytox™ LVP grease shows no evidence of reactivity when exposed to:
- Boiling sulfuric acid
- Fluorine gas at 200 °C (392 °F)
- Chlorine trifluoride at 10–50 °C (50–122 °F)
- Uranium hexafluoride gas at 50 °C (122 °F)
- Molten sodium or potassium hydroxide at 318–360 °C (605–680 °F)
- Hydrogen gas at 250 °C (482 °F) and 250 psi
- Ammonia gas at 250 °C (482 °F) and 50 psi
ULTRAFORCE O-ring Seal-Lube installation lubricants help ensure proper sealing performance over the entire lifespan of an o-ring. By minimizing o-ring damage during installation, improving dynamic performance and extending service life, o-ring lubricants are a simple way to maximize o-ring sealing performance
Applications
- Sealant or lubricant in Airsoft Shooting Systems
- High-temperature bearing, valve, and O-ring lubricant
- Oven conveyor chain and bearing grease
- Pressure relief valve lubricant
- Any use that requires high-temperature stability, low vapor pressure, or chemical inertness
Chemically Inert
ULTRAFORCE O-ring Seal-Lube has demonstrated an exceptionally high degree of chemical inertness to many highly reactive chemicals. For example, Krytox™ LVP grease shows no evidence of reactivity when exposed to:
- Boiling sulfuric acid
- Fluorine gas at 200 °C (392 °F)
- Chlorine trifluoride at 10–50 °C (50–122 °F)
- Uranium hexafluoride gas at 50 °C (122 °F)
- Molten sodium or potassium hydroxide at 318–360 °C (605–680 °F)
- Hydrogen gas at 250 °C (482 °F) and 250 psi
- Ammonia gas at 250 °C (482 °F) and 50 psi
