55 mm x 100 mm x 33.3 mm SKF 3211 ATN9 Angular Contact Ball Bearings
170 Available Volume Discount Million used 55 mm x 100 mm x 33.3 mm SKF 3211 ATN9 Angular Contact Ball Bearings instantly BEARING DE MEXICO,S.A.DE C.V. searchable. Shop our large 55 mm x 100 mm x 33.3 mm selection of parts based on brand, price, description, and location. Order the Clear Anodize Holder Surface Treatment SKF Bearing with stock ...
What is 3211 ATN9 bearing interchange?
Brand Name: |
SKF |
Model Number: |
3211 ATN9 |
Maximum Permissible Speed (limit Speed): |
Cam Follower and Track Roller - Stud Type |
Maximum Volume Flow: |
0.0 |
Control Pressure Measurement: |
N/A |
Nominal Resistance: |
0.472 |
Torque: |
B04120 |
Maximum Torque: |
Flat |
Determining Operating Characteristics: |
Stud Type |
Pilot Pressure: |
M20X1.5 |
Product Details
Maximum Permissible Speed (limit Speed) |
Cam Follower and Track Roller - Stud Type |
Maximum Volume Flow |
0.0 |
Control Pressure Measurement |
N/A |
Nominal Resistance |
0.472 |
Torque |
B04120 |
Maximum Torque |
Flat |
Determining Operating Characteristics |
Stud Type |
Pilot Pressure |
M20X1.5 |
Maximum Permissible Pilot Pressure |
Standard Stud with Eccentric Bushing |
Load Pressure |
Sealed |
Rotary stiffness |
Needle Bearing |
Power |
Yes |
Weight (approx.) |
Yes |
Displacement, geometric, per revolution |
Metric |
Case volume |
Full Complement | Lubri-Disc Seals |
Pressurefree Operation |
52MM Roller Diameter; 24MM Roller Width; Flat Roller Surface Profile; 20MM Stud Diameter; M20X1.5 Thread Size; Standard Stud with Eccentric Bushing Stud Profile; Sealed Enclosure; Needle Bearing; Yes |
Maximum Axial Force At Standstill |
Cam Followers Stud Type |
Drive Speed |
31171530 |
Drive Power |
8482.40.00.00 |
Moment of inertia rotary group |
Bearing |
Rate Of Pressure Change |
Cam Follower |
Voltage |
MCFE 52 SBX |
Flow |
1652035101 |
Maximum rotational speed |
1.04 |
Sequence Valve |
0.945 Inch | 24 Millimeter |
Stud Diameter |
0.787 Inch | 20 Millimeter |
Roller Diameter |
2.047 Inch | 52 Millimeter |