Almasol Provides Anti-Wear & Extreme Pressure Protection

Almasol® is Lubrication Engineers proprietary solid film additive originally developed for use in the late 1950s. This soft, tan powder has been incorporated into many of LE’s industrial lubricating oils and greases. The microscopic particles are so small it would take approximately 8,000 of them to cover the punctuation mark at the end of this sentence. So revolutionary in its development, a form of Almasol’s dry film technology has been used on every manned U.S. space flight until the retirement of the space shuttle program.

Unlike molybdenum disulfide and other solids used in lubricants, Almasol will not build up on itself and adversely affect machine operation with close tolerances or create hard deposits that create housekeeping issues. Unlike graphite – a commonly used solid lubricant – Almasol maintains its lubricity even under vacuum conditions. That’s why it functioned so well in space programs.


How Almasol Works

Almasol PowderLubrication is accomplished by providing a lubricant film between two opposing metal surfaces. Under light to moderate load and sufficient speeds, lubricants of the proper viscosity provide the desired film strength. As load, speeds and temperatures increase and or decrease through operation the oil film alone can become insufficient to prevent galling, scoring, wear, friction and high temperatures as metal-to-metal contact occurs. This is where Almasol excels in protecting equipment.

Think of Almasol particles as small uniform microscopic platelets. They form a single protective sacrificial layer over a metal’s working surface because they have a natural affinity for metal, maintaining an even dispersion throughout the lubricant fluid. Almasol will not build up on itself because the particles are mutually repelled. When equipment is operating, Almasol particles will slide on each other to inhibit metal-to-metal contact. If a single particle is worn away, another particle takes it place, constantly protecting the metal surface.


Proprietary

Almasol additive technology is used exclusively in LE lubricants, helping our customers worldwide protect their equipment, and experience longer lubricant intervals, fewer part replacements and less downtime.

Beneficial Qualities for Almasol

  • Deposits a sacrificial layer on metal surfaces
  • Will not build up on itself
  • Remains stable even in extreme heat conditions
  • Reduces heat by minimizing friction
  • Provides extreme pressure (EP) protection
  • Provides anti-wear (AW) protection

Almasol Outperforms Conventional Solid Additives

Solid Additive Maximum Service Temperature Load Carrying Capacity Acid Resistance Drawbacks When Used in Industrial Lubricants
Almasol Comparison Chart 1,038°C(1,900°F) 400,000 psi
(28,123 kgf/cm2)
Inert None
Almasol Comparison Chart 343°C(650°F) 400,000 psi
(28,123 kgf/cm2)
Some Oxidizes in air above 343°C (650°F),forming abrasive molybdenum trioxide. Tendency to build up on itself, affecting machinery with close tolerances. Cannot tolerate hydrochloric and nitric acid, especially when heat, water and air are present.
Almasol Comparison Chart 426°C(800°F) 80,000 psi
(5,625 kgf/cm2)
Some Known to exhibit galvanic corrosion problems. Tendency to build up on itself, affecting machinery with close tolerances.
Almasol Comparison Chart 260°C(500°F) 5,000 psi
(352 kgf/cm2)
Inert No load-carrying capability. Tendency to build up on itself, affecting machinery with close tolerances.

A - Molly_Hill_molybdenite_Pryope_Wikimedia,CC BY-SA 3.0
B - Min_graphite_Daniel Schwen,Wikimedia, CC BY-SA 2.5
C - Perfluorodecyl-chain-from-xtal-Mercury-3D-balls_Ben Mills,Wikimedia