ABEC scale
The ABEC scale is an industry accepted standard for the tolerances of a ball bearing. It was developed by the Annular Bearing Engineering Committee (ABEC) of the American Bearing Manufacturers Association (ABMA). The ABEC scale is designed to provide bearing manufacturers dimensional specifications that meet the standards of precision bearings in a specified class. Manufacturers who produce equipment that require bearings must also know the dimensional tolerances to design parts that will accommodate a bearing.
There are five classes from largest to smallest tolerances: 1, 3, 5, 7, 9. The higher ABEC classes provide better precision, efficiency, and the possibility of greater speed capabilities, but do not necessarily allow the components to spin faster. The ABEC rating does not specify many critical factors, such as load handling capabilities, ball precision, materials, material Rockwell hardness, degree of ball and raceway polishing, noise, vibration, and lubricant. Due to these factors, an ABEC 3 classified bearing could perform better than an ABEC 7 bearing. Bearings not conforming to at least ABEC 1 cannot be classified as precision bearings as their tolerances are too loose.
The scale also works as a guide for consumers to make informed decisions about the type of bearing they desire, despite not knowing factors related to materials, manufacturing, and performance.
High rated bearings are intended for precision applications like aircraft instruments or surgical equipment. Lower graded bearings are intended for the vast majority of applications such as vehicles, mechanical hobbies, skates, skateboards, fishing reels and industrial machinery. High ABEC rated bearings allow optimal performance of critical applications requiring very high RPM and smooth operation.
ISO's equivalent standard is ISO 492.[1][2] The German equivalent is DIN 620. The Japanese equivalent is JIS B1514[3].
| ABEC | ISO 492 | DIN 620 | JIS B1514 |
|---|---|---|---|
| ABEC 1 | normal class 6X |
P0 | Class 0 |
| ABEC 3 | class 6 | P6 | Class 6 |
| ABEC 5 | class 5 | P5 | Class 5 |
| ABEC 7 | class 4 | P4 | Class 4 |
| ABEC 9 | class 2 | P2 | Class 2 |
Bearing Tolerance Illustrated
For a graphical representation of the bearing tolerance differences by grade,[4] please see the table. The table shows the actual allowable deviations, in micrometers (μm), from nominal for a 20 mm inner diameter bearing. As you can see, an ABEC 7 bearing only has a 5 μm (Greek letter Mu) tolerance window, whereas an ABEC 1 has double that at 10 μm. Please see the tables and PDF's above for more specific precision bearing tolerancing.
References
- ^ ISO 492:2014 – Rolling bearings – Radial bearings – Geometrical product specifications (GPS) and tolerance values. Iso.org (2014-09). Retrieved on 2017-10-11.
- ^ Bearing Precision Comparison. Minibearings.com.au. Retrieved on 2012-08-12.
- ^ "General Bearing Technical Information - Technical Support". www.hambini.com. Retrieved 2019-11-19.
- ^ differences between the ABEC classes provided by GMN Bearings