Tilting pad bearing assemblies, and bearing apparatuses and methods of using the same

The invention claimed is: 1. A tilting pad bearing assembly, comprising: a support ring; and a plurality of tilting pads distributed circumferentially about an axis and tilted and/or tiltably secured relative to the support ring; each of the plurality of tilting pads including a superhard table having a superhard bearing surface, a lower surface, and at least one peripheral surface extending between the superhard bearing surface and the lower surface; wherein the superhard table of at least some of the plurality of tilting pads includes at least one of: polycrystalline diamond exhibiting a thickness that is at least 0.200 inch, wherein the thickness of the superhard table is substantially uniform therethrough; or a lower layer extending from the lower surface towards the superhard bearing surface and an upper layer extending from at least a portion of the superhard bearing surface towards the lower surface, the upper layer exhibiting a higher abrasion resistance than the lower layer. 2. The tilting pad bearing assembly of claim 1 , wherein the superhard table of at least some of the plurality of tilting pads includes: the polycrystalline diamond exhibiting the thickness that is at least 0.156 inch; and the lower layer extending from the lower surface towards the superhard bearing surface, and the upper layer extending from the at least a portion of the superhard bearing surface towards the lower surface, the upper layer exhibiting a higher abrasion resistance than the lower layer. 3. The tilting pad bearing assembly of claim 1 , wherein the plurality of tilting pads includes: a plurality of first tilting pads, each superhard table of the plurality of first tilting pads includes the polycrystalline diamond exhibiting the thickness that is at least 0.156 inch; and a plurality of second tilting pads, each superhard table of the plurality of second tilting pads includes the lower layer extending from the lower surface towards the superhard bearing surface and the upper layer extending from the at least a portion of the superhard bearing surface towards the lower surface, the upper layer exhibiting a higher abrasion resistance than the lower layer. 4. The tilting pad bearing assembly of claim 1 , wherein the plurality of tilting pads includes: a plurality of first tilting pads, each superhard table of the plurality of first tilting pads exhibits polycrystalline diamond exhibiting a thickness that is at least 0.156 inch; and a plurality of third tilting pads, each superhard table of the plurality of third tilting pads exhibits a thickness that is less than 0.120 inch. 5. The tilting pad bearing assembly of claim 1 , wherein the plurality of tilting pads includes: a plurality of second tilting pads, each superhard table of the plurality of second tilting pads includes the lower layer extending from the lower surface towards the superhard bearing surface and the upper layer extending from the at least a portion of the superhard bearing surface towards the lower surface, the lower layer exhibiting the lower average grain size and the upper layer exhibiting the upper average grain size, the lower average grain size being at least two times the upper average grain size; and a plurality of fourth tilting pads, each superhard table of the plurality of fourth tilting pads includes a substantially uniform grain size therethrough. 6. The tilting pad bearing assembly of claim 1 , wherein the superhard table of at least some of the plurality of tilting pads includes polycrystalline diamond table and the lower surface of the superhard table is bonded to a substrate. 7. The tilting pad bearing assembly of claim 6 , wherein the substrate includes cemented tungsten carbide. 8. The tilting pad bearing assembly of claim 1 , wherein the superhard table of at least some of the plurality of tilting pads includes cubic boron nitride, silicon carbide, silicon nitride, tungsten carbide, a reaction-bonded superhard ceramic, a metal carbide, or combinations thereof. 9. The tilting pad bearing assembly of claim 1 , wherein the thickness is greater than 0.200 inch. 10. The tilting pad bearing assembly of claim 1 , wherein the lower layer exhibits a lower average grain size and the upper layer exhibits an upper average grain size, the lower average grain size being at least two times the upper average grain size. 11. The tilting pad bearing assembly of claim 10 , wherein the lower average grain size is greater than 60 μm and the upper average grain size is less than 40 μm. 12. The tilting pad bearing assembly of claim 10 , wherein the lower average grain size is 60 μm to 80 μm and the upper average grain size is 15 μm to 35 μm. 13. The tilting pad bearing assembly of claim 1 , wherein the lower surface is nonplanar. 14. The tilting pad bearing assembly of claim 1 , wherein the superhard bearing surface of each superhard table is convex or concave. 15. A bearing apparatus, comprising a first bearing assembly including: a first support ring; and one or more bearing elements distributed circumferentially about an axis, the one or more bearing elements including a bearing surface, wherein the one or more bearing elements are secured to the first support ring; and a second bearing assembly including: a second support ring; and a plurality of tilting pads distributed circumferentially about the axis and tilted and/or tiltably secured relative to the second support ring; each of the plurality of tilting pads including a superhard table having a superhard bearing surface, a lower surface, and at least one peripheral surface extending between the superhard bearing surface and the lower surface; wherein the superhard table of at least some of the plurality of tilting pads includes at least one of: polycrystalline diamond exhibiting a thickness that is at least 0.200 inch, wherein the thickness of the superhard table is substantially uniform therethrough; or a lower layer extending from the lower surface towards the superhard bearing surface and an upper layer extending from at least a portion of the superhard bearing surface towards the lower surface, the upper layer exhibiting a higher abrasion resistance than the lower layer. 16. The bearing apparatus of claim 15 , wherein the one or more bearing elements includes an at least substantially continuous bearing element. 17. The bearing apparatus of claim 15 , wherein the superhard table of at least some of the plurality of tilting pads includes: the polycrystalline diamond exhibiting the thickness that is at least 0.156 inch; and the lower layer extending from the lower surface towards the superhard bearing surface, and the upper layer extending from the at least a portion of the superhard bearing surface to the lower layer, the upper layer exhibiting a higher abrasion resistance than the lower layer. 18. The bearing apparatus of claim 15 , wherein the plurality of tilting pads includes: a plurality of first tilting pads, each superhard table of the plurality of first tilting pads includes polycrystalline diamond exhibiting the thickness that is at least 0.156 inch; and a plurality of second tilting pads, each superhard table of the plurality of second tilting pads includes the lower layer extending from the lower surface towards the superhard bearing surface and the upper layer extending from the at least a portion of the superhard bearing surface to the lower layer, the upper layer exhibiting a higher abrasion resistance than the lower layer. 19. The bearing apparatus of claim 15 , wherein the thickn