Overload: Difference between revisions
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The [[ISO]] classification for this failure mode can be found in [ | The [[ISO]] classification for this failure mode can be found in [https://www.iso.org/standard/59619.html ISO 15243:2017 (Rolling bearings -- Damage and failures -- Terms, characteristics and causes)] (Formerly [http://www.iso.org/iso/catalogue_detail.htm?csnumber=27042 ISO 15243:2004]), 5.5 Plastic deformation -> 5.5.2 Overload deformation. | ||
[[File:Overload Indentations on Raceway at Ball Pitch - SKF.jpg|thumb|none|Another example of indentations on the raceway at ball pitch. skf.com ]] | [[File:Overload Indentations on Raceway at Ball Pitch - SKF.jpg|thumb|none|Another example of indentations on the raceway at ball pitch. skf.com ]] | ||
[[Category:Glossary]] | [[Category:Glossary]] | ||
Latest revision as of 02:48, 22 April 2018
Overload (Also known as Overload Deformation, Brinelling, and True Brinelling) is where a bearing's raceways get permanent indentations at the ball pitch as a result of exceeding the static load limit of the raceway material. The indentations match the ball shape and are usually surrounded by a build-up formed by displaced material.
Freestyle skateboarding, by its very nature, does not limit itself to just rolling, so when we do Rail Tricks, we are applying axial forces as well. The static overloading and shock loads from rail tricks tend to cause overload deformation because it can easily exceed the axial load limit of bearings that were really only designed to withstand radial forces. Bearings with deep races, however, can be much more durable in this respect.
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Overload indentations on the inner raceway of a Mini-Logo bearing from many hours worth of rail tricks. freestylekb.com -
More overload indentations on the inner raceway of a Mini-Logo bearing from many hours worth of rail tricks. freestylekb.com
The ISO classification for this failure mode can be found in ISO 15243:2017 (Rolling bearings -- Damage and failures -- Terms, characteristics and causes) (Formerly ISO 15243:2004), 5.5 Plastic deformation -> 5.5.2 Overload deformation.
