From R1 Wurks:
Introducing the R1 Wurks AAFC – Advanced Anti-Friction Coating
Apply coating to ball joints, hinge pins, steering bushings, gears and wherever decreased friction is desired.
Application Methods:
Direct Method: Brush R1 AAFC instantly onto the floor, particularly appropriate for areas similar to spur and pinion enamel.
Wicking Method: Use a loaded brush to dab R1 AAFC onto assembled components, permitting it to effortlessly wick into the specified space. After drying, a skinny layer of dry lubrication can be left behind. This technique is great for duties like lubricating ball cups, suspension balls, hinge pins, steering bushings, and anti-roll bar elements. The utility prospects are limitless.
Innovative Dry Film Transformation: R1 AAFC is a liquid components that effortlessly evolves right into a dry movie coating upon utility. This exceptional lubricant is precision-engineered to get rid of friction and scale back put on.
Unparalleled Thin Layer: R1 AAFC boasts an unequalled capacity to create an ultra-thin protecting defend, fortified with the distinctive properties of MoS2 (Molybdenum Disulfide) and WS2 (Tungsten Disulfide). This leads to an unbeatable low-friction coating that redefines the panorama of high-performance lubrication.
What is it?
WS2:
Tungsten (W): Tungsten is a transition metallic with the atomic quantity 74 on the periodic desk. It is thought for its excessive melting level, distinctive hardness, and wonderful resistance to warmth and corrosion. In WS2, tungsten atoms kind a crystalline lattice construction.
Sulfur (S): Sulfur is a non-metal aspect with the atomic quantity 16. It is often present in nature as a yellow stable. In WS2, sulfur atoms additionally contribute to the crystalline lattice construction by bonding with tungsten atoms.
The molecular components for WS2 signifies the ratio of tungsten to sulfur atoms in every molecule. For each one tungsten atom, there are two sulfur atoms, resulting in the chemical components WS2.
The crystal construction of WS2 is characterised by layers of tungsten atoms sandwiched between layers of sulfur atoms. This layered construction is a key consider WS2’s distinctive lubricating properties, because it permits for simple sliding between the layers, lowering friction and put on.
MoS2:
Molybdenum (Mo): Molybdenum is a transition metallic with the atomic quantity 42 on the periodic desk. It is thought for its excessive melting level, energy, and wonderful capacity to resist excessive temperatures and corrosive environments. In MoS2, molybdenum atoms are a part of a crystalline lattice construction.
Sulfur (S): Sulfur is a non-metal aspect with the atomic quantity 16. It is often present in nature as a yellow stable and is crucial for the formation of assorted compounds. In MoS2, sulfur atoms bond with molybdenum atoms to create the crystalline lattice construction.
The chemical components for MoS2 signifies the ratio of molybdenum to sulfur atoms in every molecule. For each one molybdenum atom, there are two sulfur atoms, resulting in the chemical components MoS2.
MoS2 reveals a layered crystal construction much like graphite, with layers of molybdenum atoms sandwiched between layers of sulfur atoms. This distinctive construction permits for simple sliding between the layers, leading to MoS2’s distinctive lubricating properties.
Directions:
- Shake effectively earlier than use
- Apply coating to desired surfaces and permit to dry fully earlier than use.
