A planetary transmission for a wind turbine includes a bolt having a cylindrical outer surface and a gear having a cylindrical inner surface rotatably supported on the outer surface of the bolt. The cylindrical outer surface of the bolt and the cylindrical inner surface of the gear are configured to function as a plain bearing, and one or both of these surfaces may include a sliding layer formed from a low friction material.

A compressively resilient bushing useful for aligning shafts and couplings and adjusting shaft misalignment. They find use as component parts of shaft, and other coupling devices. It comprises a cylindrical sleeve having an outer wall, and a hollow core through. The cylindrical sleeve defines an inner wall of the cylindrical sleeve. The hollow core extends longitudinally from a top to a bottom of the cylindrical sleeve. The cylindrical sleeve comprises a compressively resilient material. Grooves through the outer wall are around a circumference of the cylindrical sleeve. T-shaped grooves through the outer wall extend longitudinally from the top to the bottom of the cylindrical sleeve. Each T-shape groove has a ledge partially overlapping from the top to the bottom of the cylindrical sleeve at opposite sides of. Said T-shape grooves and the ledges extend from the top to the bottom of the cylindrical sleeve.

A rolling-sliding member that is high in hardness and continues to have a passivation film reliably even after being subjected to a process that does not require any processing for removal of scale, etc., as well as a rolling bearing using the same and a method for manufacturing the rolling-sliding member.

A sliding member of the present invention includes a base material and a coating layer that is formed on the base material. The coating layer includes a particle aggregate, and the particle aggregate contains two or more kinds of precipitation hardened copper alloy particles that have different compositions. The sliding member has high coating strength and superior wear resistance.

To provide a rolling bearing superior in its seizure resistance, wear resistance, and corrosion resistance by improving peeling resistance of a DLC film and by showing the original properties of the DLC film, even when the rolling bearing is brought into contact with another member under a condition of a high load or an inferior lubrication state causing sliding or a condition in which foreign matters are mixed. A deep groove ball bearing (1) includes an inner ring (2) having an inner ring raceway surface (2a) on an outer circumference, an outer ring (3) having an outer ring raceway surface (3a) on an inner circumference, rolling elements (4) that roll between the inner ring raceway surface (2a) and the outer ring raceway surface (3a), a cage (5) that retains the rolling elements (4), and a hard film (8) formed on the inner ring raceway surface (2a) or the like. The hard film (8) is brought into rolling contact and sliding contact with other bearing component. The hard film (8) includes a foundation layer, a mixed layer formed on the foundation layer and having a gradient composition mainly formed of WC and DLC, and a surface layer formed on the mixed layer and mainly formed of DLC. The indentation hardness of the surface layer measured by a method defined in ISO 14577 is 9-22 GPa.

A sliding element for an engine may include a polymer-based overlay layer and a metallic substrate. The polymer-based overlay layer may include a polymer-based matrix, a metal particulate, and a pigment. The pigment may have a hardness of at least 4 on the Mohs hardness scale.

A sliding member of the present invention includes a coating on a base material. The coating contains hard metal particles and corrosion-resistant metal particles that have hardness lower than that of the hard metal particles. The hard metal particles contain particles that have at least Vickers hardness of 600 Hv or higher. The corrosion-resistant metal particles are made of at least one kind of metal selected from the group consisting of copper (Cu), cobalt (Co), chromium (Cr), and nickel (Ni), or are made of an alloy containing said metal. The coating has a cross section in which the hard metal particles are dispersed in an island manner in a particle aggregate of the corrosion-resistant metal particles and in which an area ratio of the corrosion-resistant metal particles is 30% or larger. Thus, corrosion of the hard metal particles in the coating is prevented, whereby the sliding member maintains wear resistance for a long time.

A roller ball assembly is provided. The assembly includes a primary roller ball supported by a support element that is composed of a superhard material. The assembly includes a cup defining a cavity within which the support clement is positioned. A cap is coupled with the cup and positioned to retain the primary roller ball within the cavity. Also, a cup is disclosed for supporting roller halls. Additionally, disclosed are system and apparatus incorporating the assembly, as well as to methods of making and using the same.

A manufacturing apparatus 1 has a leveler 3 which, while pulling out a steel plate starting with one end thereof and while transporting it, corrects the waviness and the like of the steel plate, which serves as a backing plate 2 and is constituted by a continuous strip having a thickness of 0.3 to 2.0 mm and provided as a hoop material by being wound into a coil shape.

A bearing member 1 is provided with a coating layer 3 on an inner circumferential surface of a shaft hole 1A into which a shaft body 2 is to be fitted. The coating layer 3 is composed of a metal base material 3A and a heat conductive material 3B that is dispersed in the base material 3A and that has a thermal conductivity relatively higher than that of the base material 3A. The heat conductive material 3B has lengths Lb and Lc in directions B and C along a surface of the coating layer 3, longer than a length La in a thickness direction A of the coating layer 3, whereby thermal conductive characteristics in the directions B and C along the inner circumferential surface of the shaft hole 1A are enhanced. Thus, heat dissipation is improved, whereby temperature rise due to sliding contact with the shaft body 2 is suppressed, and seizure resistance is improved.