Petroff's Law - Bearing coefficient of friction
Description
In the design of fluid bearings, the Sommerfeld number (S), or bearing characteristic number, is a dimensionless quantity used extensively in hydrodynamic lubrication analysis. The Sommerfeld number is very important in lubrication analysis because it contains all the variables normally specified by the designer.
The Sommerfeld number is named after Arnold Sommerfeld (1868–1951).
Derivation:
Petroff’s Law
Petroff’s method of lubrication analysis, which assumes a concentric shaft and bearing, was the first to explain the phenomenon of bearing friction. This method, which ultimately produces the equation known as Petroff’s Law, is useful because it defines groups of relevant dimensionless parameters, and predicts a fairly accurate coefficient of friction, even when the shaft is not concentric.
Considering a vertical shaft rotating inside a bearing, it can be assumed that the bearing is subjected to a negligible load, the radial clearance space is completely filled with lubricant, and that leakage is negligible. The surface velocity of the shaft is: U = 2*π*r*N where N is the rotational speed of the shaft in rev/s.
The Bearing coefficient of friction formula is shown here.
Related formulasVariables
| f | bearing coefficient of friction (dimensionless) |
| π | pi |
| μ | absolute viscosity of the lubricant (pascal*s) |
| N | rotational speed of the shaft (revs/s) (1/s) |
| P | radial load per unit of project bearing area (pressure) (pascal) |
| r | shaft radius (m) |
| c | radial clearance (m) |