Electrically conductive bearing with rib and method of making and using the same

What is claimed is: 1. A bearing comprising: a sidewall comprising an electrically conductive substrate, and an electrically non-conductive or low-conductive sliding layer coupled to the substrate, wherein the sidewall comprises at least one circumferential rib feature protruding radially inward or radially outward from a bore defining a central axis, wherein the at least one circumferential rib feature has an aspect ratio between a circumferential length and an axial width of at least 2:1, wherein the circumferential rib feature is adapted to contact an opposing component such that at a point of contact the bearing has a void area free of sliding layer so as to provide electrical conductivity between the bearing and the opposing component, wherein the void area extends in a circumferential direction along at least a majority of a circumferential length of the circumferential rib feature. 2. The bearing of claim 1 , wherein the at least one circumferential rib feature comprises a plurality of circumferential rib features. 3. The bearing of claim 1 , wherein the at least one circumferential rib feature extends at least 45° of a circumference of the bearing. 4. The bearing of claim 1 , wherein the circumferential rib feature includes a circumferential width and a radial height, and a circumferential hump extending in the radial direction, the hump rising to and falling from an apex within the circumferential width. 5. The bearing of claim 4 , wherein the thickness of the sliding layer at a circumferential base of the circumferential rib feature is at least 2 times greater than the thickness of the sliding layer at a portion of the circumferential rib feature. 6. The bearing of claim 5 , wherein the thickness of the sliding layer at the circumferential base of the circumferential rib feature is at least 3 times greater than the thickness of the sliding layer at a portion of the circumferential rib feature. 7. The bearing of claim 4 , wherein the height of the circumferential rib feature is greater than the thickness of the sliding layer. 8. The bearing of claim 4 , wherein the at least one circumferential rib feature comprises a plurality of circumferential rib features, wherein each circumferential rib feature of the plurality of circumferential rib features comprises an apexes. 9. The bearing of claim 1 , wherein the sidewall further comprises a radially extending flange. 10. The bearing of claim 1 , wherein the circumferential rib feature comprises a polygonal portion. 11. The bearing of claim 1 , wherein the void area is located on an apex of the circumferential rib feature. 12. The bearing of claim 1 , wherein the void area extends along a circumferential length of the circumferential rib feature, and wherein the circumferential length of the void area comprises at least 1% and no greater than 100% of a total circumference of the bearing. 13. The bearing of claim 1 , wherein the circumferential length of the circumferential rib feature comprises at least 1% and no greater than 100% of a total circumference of the bearing. 14. The bearing of claim 1 , wherein the void area comprises a surface area of no greater than 50% of the total surface area of the sidewall. 15. The bearing of claim 1 , wherein the substrate comprises steel. 16. The bearing of claim 1 , wherein the sliding layer comprises a polyketone, polyaramid, a thermoplastic polyimide, a polyetherimide, a polyphenylene sulfide, a polyethersulfone, a polysulfone, a polyphenylene sulfone, a polyamideimide, ultra high molecular weight polyethylene, a thermoplastic fluoropolymer, a polyamide, a polybenzimidazole, or any combination thereof. 17. The bearing of claim 1 , wherein the circumferential rib features extend radially inward toward the inner component. 18. The bearing of claim 1 , wherein the circumferential rib features extend radially outward toward the inner component. 19. An assembly comprising: an outer component; an inner component; and a bearing disposed between component and second component, wherein the bearing comprises a sidewall comprising an electrically conductive substrate, and an electrically non-conductive or low-conductive sliding layer coupled to the substrate, wherein the sidewall comprises at least one circumferential rib feature protruding radially inward or radially outward from a bore defining a central axis, wherein the at least one circumferential rib feature has an aspect ratio between a circumferential length and an axial width of at least 2:1, wherein the circumferential rib feature is adapted to contact the outer component or the inner component at a point of contact, wherein at the point of contact, the bearing has a void area free of sliding layer so as to provide electrical conductivity between the outer component and the inner component, wherein the void area extends in a circumferential direction along at least a majority of a circumferential length of the circumferential rib feature. 20. An assembly comprising: an outer component having a bore defining a central axis; an inner component disposed in the bore of the outer component; and a bearing disposed between inner component and outer component, wherein the bearing comprises a sidewall comprising an electrically conductive substrate, and an electrically non-conductive or low-conductive sliding layer coupled to the substrate, wherein the sidewall comprises at least one circumferential rib feature protruding radially inward or radially outward from the central axis, wherein the at least one circumferential rib feature has an aspect ratio between a circumferential length and an axial width of at least 2:1, wherein the bearing has an uninstalled configuration wherein the bearing is electrically non-conductive, and an installed configuration wherein the bearing is electrically conductive, wherein electrically low-conductive is defined as having an electrical resistivity value of greater than 10 Ω·m measured from a radially outward side of the bearing to a radially inward side of the bearing along a radially extending line from the central axis that intersects the bearing perpendicular to the central axis, wherein the bearing has a void area free of a sliding layer so as to provide electrical conductivity between the outer component and the inner component, wherein the void area extends in a circumferential direction along at least a majority of a circumferential length of the circumferential rib feature.