$31.00
On Hold
FENOM Multifunctional air conditioning metal gasoline; diesel 220ml
10 available
Details
Shipping: US-Mainland: free (more destinations)
Condition: Brand new
Returns: 7 days, buyer pays return shipping (more)
FENOM Multifunctional air conditioning metal gasoline; diesel
FENOM METAL NANO CONDITIONER is designed to protect any type of internal combustion engine from wear. Increases the strength of the oil film in the friction zone and slows down the process of its destruction.
Improves engine life and performance in normal and extreme conditions (loss of oil and coolant, overheating, high loads, cold start).
It contains modern synthetic compounds and nano-sized complexes of "organoceramics" that form a thin protective film on the friction surfaces.
For using the principles of nanotechnology to reduce wear and friction, the development of the FENOM product line was awarded at international salons of inventions and innovations in Moscow, Geneva, Seoul, Lyon.
The product provides:
Effective wear and tear protection.
Increased engine power and torque by reducing mechanical losses.
Reduced fuel consumption and oil consumption for waste.
Reduced wear during engine cold start
Reduced noise and vibration.
Persistent antiwear effect with oil starvation.
Application:
Warm up and switch off the engine. Shake the bottle and fill the drug through the oil filler neck at the rate of: one package per 6-8 liters of oil. Start the engine and let it idle for 10 minutes. After that, the car can immediately be operated in normal mode.
Structure:
Synthetic aliphatic compounds, antioxidants, esters, nano-sized complexes of "organoceramics", chemical marker.
Mechanism of action:
Nanoconditioner realizes the effect of wearlessness in friction pairs.
Active components and nanoscale "organoceramics" form a self-healing thin protective film on the friction surfaces.
The protective film is a barrier to high shear and normal loads, preserving the base metal of the part and providing reduced wear and friction.
Nanoconditioner is effective for protecting engine parts made of both ferrous and non-ferrous alloys.
Nanoconditioner helps to suppress the processes of hydrogen wear of friction surfaces.
FENOM METAL NANO CONDITIONER is designed to protect any type of internal combustion engine from wear. Increases the strength of the oil film in the friction zone and slows down the process of its destruction.
Improves engine life and performance in normal and extreme conditions (loss of oil and coolant, overheating, high loads, cold start).
It contains modern synthetic compounds and nano-sized complexes of "organoceramics" that form a thin protective film on the friction surfaces.
For using the principles of nanotechnology to reduce wear and friction, the development of the FENOM product line was awarded at international salons of inventions and innovations in Moscow, Geneva, Seoul, Lyon.
The product provides:
Effective wear and tear protection.
Increased engine power and torque by reducing mechanical losses.
Reduced fuel consumption and oil consumption for waste.
Reduced wear during engine cold start
Reduced noise and vibration.
Persistent antiwear effect with oil starvation.
Application:
Warm up and switch off the engine. Shake the bottle and fill the drug through the oil filler neck at the rate of: one package per 6-8 liters of oil. Start the engine and let it idle for 10 minutes. After that, the car can immediately be operated in normal mode.
Structure:
Synthetic aliphatic compounds, antioxidants, esters, nano-sized complexes of "organoceramics", chemical marker.
Mechanism of action:
Nanoconditioner realizes the effect of wearlessness in friction pairs.
Active components and nanoscale "organoceramics" form a self-healing thin protective film on the friction surfaces.
The protective film is a barrier to high shear and normal loads, preserving the base metal of the part and providing reduced wear and friction.
Nanoconditioner is effective for protecting engine parts made of both ferrous and non-ferrous alloys.
Nanoconditioner helps to suppress the processes of hydrogen wear of friction surfaces.