A crank washer may be provided for supporting a load exerted in the thrust direction of a crankshaft, wherein an oil groove is radially formed in a thrust receiving surface, a first resin sheet, a second resin sheet, and a third resin sheet are laminated in a tapered land region TP partitioned by the oil groove, and the widths of the laminated first resin sheet, second resin sheet, and third sheet in the circumferential direction gradually decrease in the direction toward the top layer.

Embodiments of the invention are directed to bearing assemblies configured to effectively provide heat dissipation for bearing elements, bearing apparatuses including such bearing assemblies, and methods of operating such bearing assemblies and apparatuses. In an embodiment, a bearing assembly includes a plurality of superhard bearing elements distributed about an axis. Each superhard bearing element of the plurality of superhard bearing elements has a superhard table including a superhard surface. The bearing assembly includes a support ring structure coupled to the plurality of superhard bearing elements. One or more of the superhard bearing elements includes a superhard table, which may improve heat transfer from such superhard bearing elements.

The invention relates to a sliding bearing (1) comprising a support element (2) on which at least one additional functional layer (3) is arranged which consists of a silver-based alloy with silver as the main constituent of the alloy. The functional layer (3) contains, in addition to silver, at least one element from a group including gallium, manganese, nickel, copper, zinc, germanium, indium, tin, antimony and aluminum, wherein the total content of said elements is between 0.01 wt. % and 70 wt. % and the remainder is formed by silver containing production-related impurities, with the proviso that the proportion of each of the elements gallium, manganese, nickel, zinc, germanium and antimony in the binary silver-based alloys is a maximum of 49 wt. %, the proportion of indium being not more than 10 wt. %, the proportion of tin or copper content in the functional layer embodied as a sliding being not more than 10 wt. % and 14 wt. % respectively.