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Bearing Engineering & Applications
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There are many different types of bearings.

Description	Bearing Stiffness	Life Span
Plain Bearing	Rubbing surfaces, usually with lubricant; some bearings use pumped lubrication and behave similarly to fluid bearings.	Depends on materials and construction, PTFE has coefficient of friction ~0.05-0.35, depending upon fillers added	Good, provided wear is low, but some slack is normally present	Low to very high	Low to very high - depends upon application and lubrication	Widely used, relatively high friction, suffers from stiction in some applications. Depending upon the application, lifetime can be higher or lower than rolling element bearings.
Ball or Roller Bearing	Ball or rollers are used to prevent or minimise rubbing	Rolling coefficient of friction with steel can be ~0.005 (adding resistance due to seals, packed grease, preload and misalignment can increase friction to as much as 0.125)	Good, but some slack is usually present	Moderate to high (often requires cooling)	Moderate to high (depends on lubrication, often requires maintenance)	Used for higher moment loads than plain bearings with lower friction
Jewel Bearing	Off-center bearing rolls in seating	Low	Low due to flexing	Low	Adequate (requires maintenance)	Mainly used in low-load, high precision work such as clocks. Jewel bearings may be very small.
Magnetic Bearing	Fluid is forced between two faces and held in by edge seal	Zero friction at zero speed, low	Very high	Very high (usually limited to a few hundred feet per second at/by seal)	Virtually infinite in some applications, may wear at startup/shutdown in some cases. Often negligible maintenance.	Can fail quickly due to grit or dust or other contaminants. Maintenance free in continuous use. Can handle very large loads with low friction.
Fluid or Hydrodynamic Bearing	Faces of bearing are kept separate by magnets ( electromagnets or eddy currents )	Zero friction at zero speed, but constant power for levitation, eddy currents are often induced when movement occurs, but may be negligible if magnetic field is quasi-static	Low	No practical limit	Indefinite. Maintenance free. (with electromagnets )	Active magnetic bearings (AMB) need considerable power. Electrodynamic bearings (EDB) do not require external power.
Flexure Bearings	Material flexes to give and constrain movement	Very low	Low	Very high.	Very high or low depending on materials and strain in application. Usually maintenance free.	Limited range of movement, no backlash, extremely smooth motion
† Stiffness is the amount that the gap varies when the load on the bearing changes, it is distinct from the friction of the bearing.

Type Description Friction Stiffness † Speed Life Notes Plain bearing Rolling element bearing Jewel bearing Fluid bearing Magnetic bearings Flexure bearing

! knife edge bearings

Other bearing types:

• Deep groove ball bearings
• Y-bearings
• Angular contact ball bearings
• Self-aligning ball bearings
• Cylindrical roller bearings
• Full complement cylindrical roller bearings
• Needle roller bearings
• Tapered roller bearings
• Spherical roller bearings
• Toroidal bearings
• Bearing types
• Thrust ball bearings
• Angular contact thrust ball bearings
• Cylindrical roller thrust bearings
• Needle roller thrust bearings
• Tapered roller thrust bearings
• Spherical roller thrust bearings
• Track runner bearings
• Cam rollers
• Support rollers
• Cam followers

The most common bearing application is the Ball Bearing

Ball Bearing types permit smooth, low-friction movement between two or more surfaces. This movement is either rotary (shaft rotating within a mount) or linear (one surface moving along another). Bearings , are anti-friction devices, each having different anti-friction characteristics. By far the largest number of bearings are oil-lubricated. The oil film can be maintained through pumping by a pressurization system (pump). Or it can be maintained by a squeezing or wedging of lubricant produced by the rolling action of the bearing itself.

General Application Guidelines:

Ball bearings are the less expensive choice in the smallersizes and under lighter loads, while roller bearings are less expensive forlarger sizes and heavier loads.

Roller bearings are more satisfactory under shock or impactloading than ball bearings.

Ball-thrust bearings are for pure thrust loading only. Athigh speeds, a deep-groove or angular-contact ball bearing usually will be abetter choice, even for pure thrust loads.

Self-aligning ball bearings and cylindrical roller bearingshave very low friction coefficients.

Deep-groove ball bearings are available with seals built intothe bearing so that the bearing can be pre-lubricated to operate for longperiods reducing maintenance requirements.