Plain bearings are bearings working in a zone of liquid, maximum, or dry friction. The zone of liquid friction is functionally the most advantageous because of low friction losses and minimum wear of sliding faces. Liquid lubrication can be realized either by the relative movement of sliding faces (hydrodynamic and aerodynamic lubrication) or by the lubrication inlet from an outer pressure supply (hydrostatic and aerostatics lubrication).
Friction losses in the maximum friction zone are roughly one degree higher, and in the dry friction zone two degrees higher, than for liquid friction. Wear of sliding faces differs by several degrees in the individual zones. These are the reasons for selecting lower operating parameters for bearings working permanently in the zone of maximum or dry friction. The limited durability must be taken into account as well.
Hydrostatic, aerostatics, and hybrid bearings work permanently in a liquid friction zone. Hydrodynamic and aerodynamic bearings work primarily in this zone. Hybrid bearings are lubricated hydrostatically or aerostatically during the start-up and run-out process and hydrodynamically or aerodynamically during operation.
Bearings with low lubrication demands, that is, the bearings with short-term lubrication, work in the zone of maximum friction. Hydrodynamic and aerodynamic bearings work in this zone during the start-up and run-out process. Bearings without lubrication work in the zone of dry friction.
Rough data for the selection and design solution of plain bearings are presented in the following two tables. The tables inform about the suitability of using the bearing types.
|
Demands |
Bearings without lubrication |
Bearings with maximum lubrication |
Hydrodynamic bearings |
Hydrostatic bearings |
Aerodynamic bearings |
Aerostatic bearings |
|
Loading capacity |
low |
low to medium |
medium to high |
medium |
very low |
low |
|
Small starting torque |
normally not recommended |
satisfactory |
satisfactory |
excellent |
satisfactory |
excellent |
|
Small friction torque at steady state |
normally not recommended |
satisfactory |
satisfactory |
satisfactory |
excellent |
excellent |
|
Precision of radial setting |
bad |
good |
good |
excellent |
good |
good |
|
Lifetime |
limited but predictable |
limited but predictable |
theoretically endless, but limited by starts and run-outs number |
theoretically endless |
theoretically endless, but limited by starts and run-outs number |
theoretically endless |
|
Mix of axial and radial loading capacity |
axial supporting face must be done for absorbing axial load |
axial supporting face must be done for absorbing axial load |
axial supporting face must be done for absorbing axial load |
axial supporting face must be done for absorbing axial load |
axial supporting face must be done for absorbing axial load |
axial supporting face must be done for absorbing axial load |
|
Still running |
good for stationery devices |
excellent |
excellent |
excellent, apart the possible pump noise |
excellent |
excellent, but compressed noise is possible |
|
Lubrication simplicity |
excellent |
excellent |
separate system can be used with certain limitation of speed, loading, and diameter |
additional high pressure pump necessary |
excellent |
supply of compressed, dry, and clean air necessary |
|
Availability of standard parts |
good to excellent |
excellent |
good |
not suitable |
not suitable |
not suitable |
|
Protection against pollution of product and environment |
abrasion can be a limiting factor |
normally satisfactory, but sealing is necessary, except when working liquid can be used for lubricant |
normally satisfactory, but sealing is necessary, except when working liquid can be used for lubricant |
normally satisfactory, but sealing is necessary, except when working liquid can be used for lubricant |
excellent |
excellent |
|
Starts and run-outs number. Frequent rot. direction change |
excellent |
good, generally good |
good, generally good |
excellent |
bad |
excellent |
|
Operating expenses |
very low |
very low |
depends on the complexity of lubrication system |
price of lubricant supply must be considered |
none |
price of gas supply must be considered |
|
Ambient conditions |
Bearings without lubrication |
Bearings with limited lubrication |
Hydrodynamic bearings |
Hydrostatic bearings |
Aerodynamic bearings |
Aerostatic bearings |
|
High temperature |
satisfactory, depends on the material |
beware of oxidation: lubrication resistance necessary |
beware of oxidation: lubricant resistance necessary |
beware of oxidation: lubricant resistance necessary |
excellent |
excellent |
|
Low temperature |
satisfactory, depends on the material |
possible limitation from lubricant, respect to starting torque necessary |
possible limitation from lubricant, respect to starting torque necessary |
possible limitation from lubricant |
excellent, ideally dried gas necessary |
excellent, ideally dried gas necessary |
|
Outside vibrations |
normally satisfactory, except when impact loading peak exceeds loading capacity |
normally satisfactory, except when impact loading peak exceeds loading capacity |
satisfactory |
excellent |
normally satisfactory |
excellent |
|
Space demanded |
small radial dimension |
small radial dimension |
small radial dimension, but the total space requirement depends on the lubrication system |
small radial dimension, but the total space requirement depends on the lubrication system |
small radial dimension |
small radial dimension, but the total space requirement depends on the gas supply system |
|
Dirt or dust |
normally satisfactory, sealing is desirable |
sealing is important with self-lubricated bearings |
satisfactory, lubricant filtering is important |
satisfactory, lubricant filtering is important |
sealing is important |
satisfactory |
|
Vacuum |
excellent |
lubricant can be a limitation |
lubricant can be a limitation |
lubricant can be a limitation |
normally cannot be used |
cannot be used when vacuum is kept |
|
Wet or humid environment |
normally satisfactory, sealing is advantageous |
normally satisfactory, sealing is advantageous |
satisfactory |
satisfactory |
satisfactory |
satisfactory |
|
Radiation |
satisfactory |
lubrication can be a limitation |
lubrication can be a limitation |
lubrication can be a limitation |
excellent |
excellent |