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  Applied Industrial Technologies Bearing facts and common bearing failure causes.
   
   Products > ... Bearings > Bearing Facts

 Bearing Facts

Improper lubrication and contamination
are responsible for 70% of all early bearing failures.
Dirt is responsible for more than 90% of all bearing troubles.
Bearing life is reduced by approximately 20% with outer race rotation.
When a bearing is press fitted onto a steel shaft or press fitted into steel or cast iron housings, the internal clearance is reduced by 80% of fit interference.
Deep groove ball bearings (Conrad) are ideally designed to permit radial loading and thrust loading from either direction (the combined load should not exceed 100% of radial load rating).
Maximum type ball bearings (with precision ground filling slots) have a radial capacity of 10-15% more than the Conrad type. Thrust is limited to approximately 10% of radial capacity.
The angular contact design permits this bearing to carry high thrust in ONE DIRECTION ... equal to 150% of its radial load capacity.
Double row ball bearings combine the features of two single row angular contact bearings mounted in duplex.
Always check bearing fit-up after assembly.
Recommended shaft finishes for Grade 1 bearings under 2” - max. 32 rms; over 2” - max. 64 rms; housing bores - 125 rms max.
High points of eccentricity of inner and outer races of high precision bearings are marked with a burnished spot on one face.
It is desirable to press needle bearings from the lettered end.
Do not check O.D. of a drawn cup needle bearing unmounted.
Bearings lubricated with petroleum greases have a shelf life of approximately seven years.
If you double the speed of a bearing, you cut its life in half. If you double the load on a ball bearing, you cut its life to 1/8 of its original life.
Coefficient of thermal expansion for steel is .00007 inch per ºF.
 
 
Common Causes of Bearing Failures
 
There are many causes of bearing damage. It is not always easy to determine the exact cause, but most bearing failures can be attributed to one or more of the following major causes:
 
Foreign matter: One of the most common sources of trouble in bearings is wear and pitting caused by foreign particles. This could be in the form of dirt, abrasive grit, lint, dust, steel chips, etc.
 
Improper mounting: Bearings should be mounted with a press fit on the rotating ring. Generally, the shaft rotates and the inner ring is mounted with a press or interference fit.
  1. Mounting bearings on shafts by applying blows or pressure to the outer race will usually cause denting (true brinell).
  2. Loose shaft fit – rotation of the shaft within the inner ring can produce heat and small loose particles of metal that will eventually get into the bearing, causing wear.
  3. Loose housing fit – damage similar to loose shaft fit.
  4. Excessive tight fits – (shaft and housing) can cause rings to crack. Usually causes excessive internal preload because of the removal of internal clearance. Causes high operating temperature and premature failure.
  5. Out of round housings – usually found in split housings where careful machining is necessary to obtain round housing. Causes localized overloading with abnormal wear on surfaces and retainer pockets. Early fatigue occurs in these areas.
  6. Poor finish on the bearing seat – a coarse finish on the bearing seat will soon break down causing a loose fit condition, previously described.
Misalignment: A frequent source of trouble resulting in overheating and separator failure. Common causes are bent shafts, out-of-square shaft shoulders, out-of-square spacers, and out-of-square clamping nuts. Inspection of the raceways will show the ball track veering from one side to the other.
 
Vibration Brinell (False Brinell): Caused by the rapid movement of the balls in the raceway while the equipment is idle. Rolling elements quickly remove lubrication and, because there is not enough rotation of the bearing, fresh lubricant is not moved back into the spot. This means the bearing is sitting in one spot, devoid of lubrication, and the movement of the rolling elements wears away the metal. The indentations run axially across the races.
 
Electrical Damage (Fluting): When electric currents pass through a bearing, there is arcing and burning at the points between the races and the rolling elements where the current jumps the air gap. Pitting or cratering of a bearing is caused by relatively large charges of electricity.
 
A line of small burns along the line of contact of the rolling elements is caused by a low current constantly passing through the bearing. This fluting or grooving is formed on all parts as the current continues to pass through the bearing, and the contact points change as the bearing rotates. The steel melts in the affected zone. Electrical damage will cause early spalling and results in a noisy bearing which will have to be replaced.
 
Improper Lubrication: Lack of or improper lubrication generally causes overheating or excessive wear in the bearing. These conditions can result from insufficient lubrication, improper lubricants, complete absence of lubrication, or insufficient lubrication due to loss through leakage. Also to be considered is the breakdown of lubricants either by oxidation or exposure to atmospheric conditions.
 
Fatigue: Fatigue means the fatiguing of the metal in the components of the bearing. It is a result of stress reversals produced when rotating members create flexing of the metal. Fatigue develops due to the magnitude of the load and the number of times it is repeated. Actually, the rolling elements create a wave of metal in front of them as they roll. Thus, the metal in the components is alternately put in tension and then compression. This action eventually results in flaking of the metal.
 
Corrosion: The finely finished surfaces of ball and roller bearings are readily subject to corrosion by water, acids, and other agents. Corrosion is basically abrasive in nature and will account for excessive or abnormal wear in bearings. Common causes of corrosion include moisture, acid action, poor or broken down greases, poor wrappings, and condensation resulting from excessive temperature reversals.
 
Defective Sealing: This enables foreign material and contaminants to enter the bearing, causing wear.
 
High Temperatures: High temperatures frequently cause premature bearing failure, the nature of the failure being predicated on the temperature to which the bearing is raised and the grease with which it is lubricated. Mild temperature elevations may cause grease to bleed which reduces the efficiency of the lubricant. Under increasingly elevated temperature conditions, oxidation causes loss of lubricating elements and the formation of carbon. The carbon thus formed may lock or jam the bearing. High temperatures may also reduce the hardness of the metal causing early failure. High temperatures can cause loss of internal clearance and preloading results. Many bearing failures can be traced to dirt. Cleanliness is always a must.
 
Storage: Dampness (rust) - store bearings in a dry room.
 
Unwrapping: Not sure of bearing numbers, tearing wrappings and boxes – lets in dirt, corrosion, etc.
 
Always take bearing to the place of installation before unwrapping. This keeps the bearing clean.
 
Make sure parts are clean. If the bearing and parts are to be left out, cover to keep them clean.



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