FAG

K81102-TV

K81102-TV

Regular price €0,00
Regular price Sale price €0,00
Sale Sold out
Taxes included.

Delivery time approx. 2-4 working days

Produkteigenschaften
Material Rolling bearing steel
Außenring without groove
Dichtung open
Käfig Polyamide, glass fiber reinforced (TVH)
Temperaturbereich -30°C to +120°C
Toleranzklasse Normal (P0)
Bohrung without drilling
Abmessungen
Innen Ø (mm) 15Außen Ø (mm) 28Breite (mm) 3.5
K81102-TV – Axial cylindrical roller ring for precise, smooth-running axial guides.

Quality that safeguards processes
As a bearing element with matching counter-running surfaces, the axial cylindrical roller ring absorbs very high axial loads in one direction, while maintaining a low overall height and low running resistance. The defined axial guidance combines with high stiffness to ensure reproducible operating behavior. Radial loads are always absorbed separately.

Design and manufacturing quality
A precision cage guides cylindrical rollers and ensures linear contact for load distribution. Finely machined contact surfaces keep friction low and promote smooth running. Furthermore, the separable, assembly-friendly design facilitates joining with the separate mating surfaces. This is achieved using flat, hardened, and sufficiently load-bearing raceways on both the shaft and housing sides, while the angular adjustability remains very limited due to the design. Depending on the version, the ring is constructed with a polyamide cage (TV), manufactured to tolerance class P0, and implemented with raceway-compatible steel components.

Convincing in everyday life
In practice, the bearing exhibits high axial stiffness with minimal installation space and maintains constant temperature and vibration levels. Furthermore, the separate discs allow for quick handling, thus reducing downtime. In addition, a suitable lubrication and fit concept ensures consistently stable performance over the long term.

Summary
In short: flat, axially high load-bearing capacity and low friction – for reliable results under axially dominant loads.
View full details