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Registration Date 16 Oct 2021
Revision Date 16 Oct 2021
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KLONDIKE nano Full Synthetic EP-1.5

(4)

Petroleum Oils and Lubricants

Grease

Nanomaterials

Manufacturer Asserted

Tungsten disulfide

WS2 Nanoparticle /Nanopowder CAS Number : 12138-09-9

Applications

Industrial machines Automotive Truck

Properties

Mechanical Resistance Temperature resistance Corrosion resistance Wear Resistance Friction reduction Pressure Resistance Energy Consumption Reduction

Manufacturer's Description

KLONDIKE nano Full Synthetic EP-1.5 Grease represents the pinnacle of modern lubricant design. Innovative nanotechnology enhances the performance of this lubricant into an area previously unseen in the field of industrial grease products.

KLONDIKE nano Full Synthetic EP-1.5 Grease brings a unique, technically advanced grease offering to the industrial and heavy equipment market. Proprietary nanotechnology is presented into a commercial lubricant in the form of multi-layered, spherical, closed caged particles of tungsten disulfide. The unique spherical tungsten disulfide nanoparticles show outstanding resistance to extreme temperatures (-270°C to 450°C), heavy shock loading (5,076,000 PSI) and extreme pressure (4,263,000 PSI). This versatile formulation operates under even the most extreme operating conditions, including high and ultra-low temperatures, high pressure and high vacuum, high load, high rotating speed, high radiation and in corrosive environments.

As metal parts lubricated with KLONDIKE nano grease move together, the layers of tungsten disulfide particles exfoliate, laying down a protective layer and bonding to the metal parts in the areas of most extreme pressure. These features ensure maximum EP protection, extremely low wear rate, friction reduction, and reduced energy consumption.

The incorporation of this proprietary technology into a very stable, PAO synthetic base fluid produces a grease offering extreme temperature performance, and maximum resistance to oxidation, metal wear, and equipment and component downtime.