|System of Measurement||Inch|
|For Load Direction||Radial|
|Inner Ring Type||Standard|
|Bore Dia Tolerance||-0.0003" to 0"|
|Outer Dia Tolerance||-0.0003" to 0"|
|Width Tolerance||-0.005" to 0"|
|Ring Material||440C Stainless Steel|
|Ball Material||440C Stainless Steel|
|Cage Material||300 Series Stainless Steel|
|Dynamic Radial Load||94 lbf|
|Static Radial Load||45 lbf|
|Max Speed (X1000 rpm)||36|
|Shaft Mount Type||Press Fit|
|Temperature Range||-86 to 230 °F|
|ABEC Rating||ABEC1 (Available in ABEC3/5/7)|
|Radial Clearance Trade No.||MC3 （Available in MC1/2/4/5/6)|
|Radial Clearance||0.00008" to 0.0005"|
Other Seal Type:
Design Features of SR1810 Bearing
SR1810 Bearing offers dependable and efficient performance in industrial applications where space is at a premium. SR1810 bore dia is 0.3125". Its out dia is 0.5". SR1810 ball material is 440C Stainless Steel. Its seal type is Open. This bearing boasts high-speed capabilities, low friction, and minimal noise levels, ensuring optimal performance. Built to meet industry standards for precision and durability, it is an ideal choice for a variety of compact-space applications in diverse industries.
Applications of SR1810 Bearing
SR1810 Bearing finds applications in various industries that require high precision and compact design, such as medical devices, robotics, and aerospace technology. It is also used in computer hard drives, motors, and instrumentation equipment. Its small size and efficient performance make it a popular choice for industries where space is limited but high precision is essential.
Maintenance and Troubleshooting Tips of SR1810 BearingTo ensure optimal performance and longevity of SR1810 Bearing, regular maintenance is necessary. Inspect the bearing frequently for any signs of damage, wear, or contamination. Clean it with a non-corrosive solvent and dry it thoroughly before lubrication. If any damage or excessive wear is detected, replace the bearing immediately. In case of any issues with the application, troubleshoot to ensure the bearing is being used within its designed parameters.