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Save Every Drop of Horsepower with UPPER CYLINDER LUBRICANT

AMSOIL UPPER CYLINDER LUBRICANT:  I use it and it works!

Now on the market for about a year: AMSOIL Upper Cylinder Lubricant (UCL) is the latest addition to the gasoline additive lineup. It delivers more lubricity than the competition and battles ethanol-related corrosion.

Fuel Additive Product Overview

Upper cylinders are one of the toughest areas of an engine to lubricate due to the intense heat of combustion and the design of today’s vehicles. New AMSOIL Upper Cylinder Lubricant delivers a much-needed layer of protection to this trouble area to help fight piston-ring and cylinder wear, maximizing engine compression and horsepower. Its lubricity improvers aid in protecting fuel injectors and other fuel-system components from wear, helping ensure excellent performance and long life.

Plus, it really works. AMSOIL Upper Cylinder Lubricant delivers 18 percent more lubricity than Lucas* and 20 percent more than Sea Foam* for better retention of horsepower and fuel economy. ¹

Inhibits Corrosion

Upper Cylinder Lubricant uses potent corrosion inhibitors to coat metal surfaces, block out moisture and stop deterioration before it starts. This is particularly important when using gasoline that contains ethanol due to its propensity to attract water and hasten corrosion. Inhibiting corrosion maximizes component life and reduces wear in the engine’s top-end to guard against compression loss and maintain optimum power.

Keeps Injectors Clean

Upper Cylinder Lubricant contains detergent additives designed to maintain injector cleanliness. It’s designed to work in concert with AMSOIL P.i. Performance Improver (API) to maintain injector and combustion-chamber cleanliness, retain fuel-economy and performance gains and maximize component life.

Capless-Compatible Packaging

The AMSOIL Upper Cylinder Lubricant bottle is fully compatible with capless fuel systems. Many new vehicles have replaced traditional fuel caps with capless systems. The threads on most bottles restrict them from opening the flap inside the fuel neck and also make removing the bottle difficult. Our packaging makes it easy to insert, pour and remove the bottle.

 

¹ Based on independent testing of AMSOIL Upper Cylinder Lubricant, Lucas Upper Cylinder Lubricant and Sea Foam Motor Treatment obtained on 02/13/2019 using the ASTM D6079 modified for use with gasoline.

User Comments:

I’ve been using this for almost a year now.  In my Ford Focus which is the 2.0 non-turbo I can now use 10% ethanol and get over 40 MPG! I drive from Sioux Falls to Omaha and back often so I can see a difference. It seems the only logical reason this happens is the better lubricity in the head and cylinder ring area. There must be a good amount of friction there. And the parts of the lubricant perhaps seal the rings and valves better as well as the valve stem.

As soon as I get 1000 miles on my Corvair (new engine and heads) I’ll try this as there is even greater friction on horizontal cylinders. It seems to sort of work like lead once did.

If you are going on a long trip keep this in the tank for maximum efficiency. The upper cylinder areas need lubrication. Adding this to the fuel relieves more stress from the engine thus better long term efficiency.

The best way to buy is by the case reducing the price low enough to only cost pennies per tank of gasoline.  Thus we keep several cases in stock for your use.

Find out more about this newer AMSOIL product Upper Cyl Lube!

A Simple Way To Fight Cylinder-Liner Cavitation

A SIMPLE WAY TO FIGHT CYLINDER-LINER CAVITATION

In extreme cases, cylinder-liner cavitation in diesels can allow oil and coolant to mix. Then it’s just a matter of time until engine failure. Here’s what you can do to help ensure that doesn’t happen.

Most diesel engines are designed with replaceable cast-iron cylinder liners that are pressed into the engine block. While this doesn’t apply to turbodiesel pickups, it affects heavy-duty over-the-road trucks and other diesels. The piston moves up and down inside the liner, while a jacket of coolant surrounds the outside of the liner to cool the engine.

How cylinder-liner cavitation occurs

When the engine is running, the pistons move vertically inside their liners several thousand times per minute. Meanwhile, the rotary motion of the crankshaft applies a thrust force through the connecting rods to the piston. These contradictory movements cause the pistons to hammer the liners, causing significant vibration, similar to the effect of ringing a bell. This vibration can cause air bubbles to form in the coolant surrounding the liner.

When the bubbles rupture, they direct a high-pressure stream of coolant at the liner. Like a rushing river carving away a canyon wall, the coolant can erode the liner until cavities form. Left unchecked, these cavities can keeping growing and eventually penetrate the liner, allowing oil and coolant to mix. Once that happens, it’s only a matter of time before the engine fails.

Prevention is the best practice when it comes to cavitation. That task falls on the engine coolant, and there are two ways formulators typically design engine coolant to fight cavitation.

How Cylinder Liner Cavitation Occurs
Imploding bubbles direct high-pressure
coolant toward the cylinder liner, creating
cavities through which the coolant can enter
and mix with oil, damaging the engine.

The old-fashioned way

For years, formulators have added metallic salts, like nitrites and molybdenates, to coolant that attach themselves to the liner and form a sacrificial layer. When the coolant bubbles implode, the metallic salts absorb the pressure and break off from the liner surface rather than the metal itself. Metallic salts naturally deplete over time, meaning motorists must replenish them periodically by adding a supplemental coolant additive (SCA) to the coolant reservoir, typically midway through the service interval. Unfortunately, this is often overlooked.

The better way

The trend in the coolant market – and the strategy we use at AMSOIL – is to eliminate adding an SCA by formulating coolant with organic acid technology (OAT). The chemistry of OAT coolants passivates the liner surface, which coats it in a thin, inert layer that provides protection against cavitation and corrosion. Unlike old-fashioned metallic salts, the additives in OAT coolants last much longer, meaning you don’t have to replenish the system with an SCA. Modern OAT coolants also help fight problems associated with old fashioned “green” coolants, like scaling and additive drop-out (which leads to “slime” in your coolant system) due to incompatibility issues.

Coolant Maintenance is Key – Don’t forget about the most forgotten system

Aside from using an OAT coolant, it’s good practice to check your coolant level periodically. Also, make sure to check the pH and glycol levels annually. Glycol is important to the level of freeze protection and the coolant’s boiling point. Over time, the water can evaporate from the system and increase glycol concentration, throwing off the coolant’s balance. Perform fluid analysis once a year for best performance. We offer that service through Oil Analyzers INC. (www.oaitesting.com). We also offer antifreeze test strips (G1165).

Using AMSOIL Heavy Duty Antifreeze & Coolant (ANTHD) and taking care of your diesel’s cooling system go a long way toward avoiding the financial pain of fixing an engine ruined by cylinder-liner cavitation.

We keep this one in the Omaha store due to requests. If you need more than a case of four we can have it delivered next day or shipped to your home.

  • Pre-mixed 50/50 with high-purity water.
  • Fully formulated: DOES NOT require the use of supplemental coolant additives (SCAs) or excenders.
  • All-organic formulation is further enhanced with anti-scalant, anti-fouling and water-pump lubrication additives.
  • Phosphate-, nitrate-, nitrite-, silicate-, borate and amine-free.
  • Boil-over protection up to 265 F (129 °C) with a 15 psi radiator cap.
  • Freeze protection down to – 34 F (-37 °C)