Bearing apparatus including a bearing assembly having a continuous bearing element and a tilting pad bearing assembly

We claim: 1. A bearing apparatus, comprising a first bearing assembly including: a first support ring; and a plurality of tilting pads each of which includes a superhard bearing element having a superhard bearing surface, each of the plurality of tilting pads tilted and/or tiltably secured relative to the first support ring; and a second bearing assembly including: a continuous superhard bearing element including a continuous superhard bearing surface that generally faces the superhard bearing element of each of the plurality of tilting pads, the continuous superhard bearing element having a maximum lateral width greater than about 2 inches, the continuous superhard bearing surface including reaction-bonded silicon nitride or reaction-bonded silicon carbide. 2. The bearing apparatus of claim 1 wherein the maximum lateral width is about 2 inches to about 3 inches. 3. The bearing apparatus of claim 1 wherein the maximum lateral width is about 3 inches to about 5 inches. 4. The bearing apparatus of claim 1 wherein the maximum lateral width is about 5 inches to about 12 inches. 5. The bearing apparatus of claim 1 wherein at least one of the continuous superhard bearing element or the superhard bearing element of at least one of the plurality of tilting pads include a superhard table bonded to a substrate. 6. The bearing apparatus of claim 5 wherein the superhard table includes polycrystalline diamond. 7. The bearing apparatus of claim 1 wherein at least one of the continuous superhard bearing surface or the superhard bearing surface of at least one of the plurality of tilting pads includes at least one of silicon carbide, silicon nitride, cubic boron nitride, tantalum carbide, reaction-bonded silicon carbide, reaction-bonded silicon nitride, or binderless tungsten carbide. 8. The bearing apparatus of claim 7 wherein the continuous superhard bearing surface further includes diamond particles. 9. The bearing apparatus of claim 1 wherein the continuous superhard bearing surface of the continuous superhard bearing element and the superhard bearing surface of at least one of the plurality of tilting pads comprise different materials. 10. The bearing apparatus of claim 1 wherein at least one of the superhard bearing surfaces of at least one of the plurality of tilting pads or the continuous superhard bearing element includes a coating. 11. The bearing apparatus of claim 10 wherein the coating includes a chemical vapor deposited coating. 12. The bearing apparatus of claim 11 wherein the chemical vapor deposited coating includes silicon carbide. 13. The bearing apparatus of claim 1 wherein at least one of the continuous superhard bearing surface of the continuous superhard bearing element or the superhard bearing surface of at least one of the plurality of tilting pads has a surface finish of less than about 35 microinches. 14. The bearing apparatus of claim 13 wherein the surface finish is about 5 microinches to about 10 microinches. 15. The bearing apparatus of claim 13 wherein the surface finish is less than about 2.5 microinches. 16. The bearing apparatus of claim 1 wherein the continuous superhard bearing element is brazed to a second support ring. 17. The bearing apparatus of claim 1 wherein each of the plurality of tilting pads includes a plurality of superhard bearing segments assembled to form the superhard bearing surface thereof. 18. The bearing apparatus of claim 1 wherein each of the plurality of tilting pads is tiltable about a respective tilt axis. 19. The bearing apparatus of claim 1 wherein the first bearing assembly is a stator and the second bearing assembly is a rotor. 20. The bearing apparatus of claim 1 wherein the continuous superhard bearing surface includes a single continuous superhard bearing surface. 21. A bearing apparatus, comprising a first bearing assembly including: a first support ring; and a plurality of tilting pads each of which includes a superhard bearing element having a polycrystalline diamond bearing surface, each of the plurality of tilting pads tilted and/or tiltably secured relative to the first support ring; and a second bearing assembly including: a continuous superhard bearing element including a continuous superhard bearing surface that includes a non-polycrystalline diamond material including reaction-bonded silicon nitride or reaction-bonded silicon carbide, the continuous superhard bearing surface generally faces the superhard bearing element of each of the plurality of tilting pads, the continuous superhard bearing element having a maximum lateral width greater than about 2 inches. 22. The bearing apparatus of claim 21 wherein the continuous superhard bearing surface includes is a single continuous superhard bearing surface. 23. A method of operating a bearing apparatus, the method comprising: rotating a rotor relative to a stator; wherein at least one of the stator or the rotor includes: a first support ring; and a plurality of tilting pads each of which includes a superhard bearing element having a superhard bearing surface, each of the plurality of tilting pads tilted and/or tiltably secured relative to the first support ring; wherein the other of the stator or the rotor includes: a continuous superhard bearing element including a continuous superhard bearing surface that generally faces the superhard bearing element of each of the plurality of tilting pads, the continuous superhard bearing element having a maximum lateral width greater than about 2 inches, the continuous superhard bearing surface including reaction-bonded silicon nitride or reaction-bonded silicon carbide. 24. The method of claim 23 wherein the continuous superhard bearing surface includes is a single continuous superhard bearing surface. 25. A method for manufacturing a bearing assembly, the method comprising: providing a continuous superhard bearing element that includes a continuous superhard bearing surface including reaction-bonded silicon nitride or reaction-bonded silicon carbide; forming a hole generally in a center of the continuous superhard bearing element; providing a support ring including a recess configured to receive the continuous superhard bearing element; attaching the continuous superhard bearing element to the support ring such that the continuous superhard bearing element is secured in the recess of the support ring; and smoothing the continuous superhard bearing surface of the continuous superhard bearing element to exhibit a surface finish of less than 20 microinches. 26. The method of claim 25 wherein providing a continuous superhard bearing element that includes a continuous superhard bearing surface includes providing a polycrystalline diamond table that at least partially defines the continuous superhard bearing surface, wherein the polycrystalline diamond table is bonded to a substrate.