Bearings
Angular Contact Bearings
Angular Contact Bearings
Quick Code: BB-503197
7216-B-XL-JP-UO FAG Single Row Angular Contact Ball Bearing 80mm x 140mm x 26mm
Help Articles
Buy Now
Product Specification
Arrangement
Bearing pair is clearance-free in O- and X-arrangement
Brand
FAG
Cage
Sheet steel cage
Clearance
Normal radial clearance
Contact angle
40 degree
Inside Dia
80mm
Material
Standard bearing steel
Outer ring
Without flange/groove
Outside Dia
140mm
Row Type
Single
Seal
None, open bearing
Temperature range
-20 to +150 °C
Tolerance class
Tolerance class P0/PN2 / ABEC 1
Width
26mm
Reference
7216-B-XL-JP-UO
Additional Reference:
10071604
Quick Order Code
BB-503197
Product Description
7216-B-XL-JP-UO FAG Single Row Angular Contact Ball Bearing
The 7216-B-XL-JP-UO is a premium single row angular contact ball bearing from FAG, engineered to handle combined radial and axial loads with exceptional precision and reliability. This versatile bearing is designed for high-speed applications where simultaneous load capacity and durability are essential performance requirements.
Key Features:
- 40° contact angle for optimal load distribution and performance
- Single row design for axial load accommodation in one direction
- Clearance-free bearing pair in both O- and X-arrangement configurations
- Sheet steel cage for reliable ball centring and smooth operation
- Normal radial clearance for standard applications
- Open bearing design (no seals) for applications where lubrication control is critical
- Standard bearing steel construction for proven durability
- Tolerance class P0/PN2 (ABEC 1) for consistent precision
- Operating temperature range: -20°C to +150°C
Specifications:
- Bore diameter: 80mm
- Outer diameter: 140mm
- Width: 26mm
- Brand: FAG
- Reference Number: 7216-B-XL-JP-UO
Applications:
This bearing is ideal for industrial electric motors, gearboxes, spindle systems, and other precision equipment where combined radial and axial load capacity is required. The clearance-free pairing capability makes it particularly suitable for applications demanding minimal play and enhanced load distribution.

