A screw compressor utilizing radial and axial or thrust bearings to maintain the position of the rotors radially and axially and utilizing a damping fluid to dampen rotor vibrations. The damping fluid may conveniently be provided in the form of lubricant that is already used in the compressor to seal the clearances between the rotors and between the rotors and the cylinder during compression. The damping fluid is included in a squeeze film damper, arranged in a parallel arrangement with the radial or thrust bearings, which provides viscous damping to the rotor. The introduction of additional viscous damping such as may be provided by squeeze film dampers may result in significant reduction of compressor vibration regardless of the source of vibration.

A bearing assembly may include a first bearing element defining a first bearing surface and a second bearing element defining a second bearing surface. One of the first and second bearing elements may have a fluid channel with an inlet for receiving a bearing fluid and at least one outlet in the bearing surface of the one of the first and second bearing elements. The first bearing element may be configured for rotation at a design rate of rotation relative to the second bearing element with the first bearing surface facing the second bearing surface. The first bearing element may apply a force directed from the first bearing surface toward the second bearing surface during rotation at a reduced rate of rotation less than the design rate of rotation.

A bearing assembly system adapted for use on a rock crusher having a main frame, a main shaft, an eccentric and a crushing head. The bearing assembly system comprises a first bearing ring which is disposed around the main shaft, a second bearing ring which is disposed adjacent to the first bearing ring, and a means for conveying fluid to at least one of the first bearing ring and the second bearing ring. In the preferred bearing assembly system at least one of the first bearing ring and the second bearing ring comprises a fluid depression. The preferred method further comprises conveying fluid from the means for conveying fluid to at least one of the first bearing ring and second bearing ring.

A bearing assembly may include a first bearing element defining a first bearing surface and a second bearing element defining a second bearing surface. One of the first and second bearing elements may have a fluid channel with an inlet for receiving a bearing fluid and at least one outlet in the bearing surface of the one of the first and second bearing elements. The first bearing element may be configured for rotation at a design rate of rotation relative to the second bearing element with the first bearing surface facing the second bearing surface. The first bearing element may apply a force directed from the first bearing surface toward the second bearing surface during rotation at a reduced rate of rotation less than the design rate of rotation.

A hydrostatic profiled rail guide, having a guide carriage (2) which is arranged on a guide rail (1) so as to be longitudinally slidable and is hydrostatically mounted on said guide rail, wherein the guide carriage has pressure pockets and pocket surfaces arranged around the pressure pockets, and wherein the guide rail on the faces thereof facing towards the pressure pockets has rail running surfaces (7) for hydrostatic mounting of the guide carriage on the guide rail, wherein the pocket surfaces formed on the guide carriage have a first coating formed of a Cu/Sn alloy.

A bearing may include a body defining a bore having an inner surface, the inner surface including a bearing surface. A bearing may include a plurality of recesses inset in the inner surface, wherein the plurality of recesses are asymmetrical, the plurality of recesses configured to generate a non-rotating net radial force on the journal.