Bearing assembly

What is claimed is: 1. A bearing assembly configured to rotatably support a first machine part in a second machine part, the bearing assembly comprising: a first rolling-element bearing; and a second rolling-element bearing, wherein the first rolling-element bearing and the second rolling-element bearing are installed in the bearing assembly with an axial preload or an axial clearance, wherein the second machine part includes a first conical abutment surface and the first rolling-element bearing includes a bearing ring having a second conical abutment surface facing the first conical abutment surface of the second machine part, wherein an intermediate ring is disposed between the first conical abutment surface and the second conical abutment surface in abutment with the first and second conical abutment surfaces, wherein the bearing ring comprises a first metal and the second machine part comprises a second metal, wherein the intermediate ring comprises a material having a higher coefficient of thermal expansion than a coefficient of thermal expansion of the first metal and higher than a coefficient of thermal expansion of the second metal, and wherein a cone angle (α 1 ) of the first conical abutment surface is greater than a cone angle (α 2 ) of the second conical abutment surface. 2. The bearing assembly according to claim 1 , wherein the intermediate ring comprises a plastic. 3. The bearing assembly according to claim 1 , wherein the intermediate ring comprises a fluorinated rubber. 4. The bearing assembly according to claim 1 wherein the first and second rolling-element bearings are tapered rolling-element bearings. 5. The bearing assembly according to claim 1 , wherein a cone angle (α 1 ) of the first conical abutment surface is from 15° to 55°. 6. The bearing assembly according to claim 5 , wherein a cone angle (α 2 ) of the second conical abutment surface is from 10° to 50°. 7. The bearing assembly according to claim 5 , wherein a cone angle (α 1 ) of the first conical abutment surface is equal to a cone angle (α 2 ) of the second conical abutment surface. 8. The bearing assembly according to claim 1 , wherein a cone angle (α 1 ) of the first conical abutment surface is from 15° to 30°. 9. The bearing assembly according to claim 8 , wherein a cone angle (α 2 ) of the second conical abutment surface is from 10° to 25°. 10. The bearing assembly according to claim 1 , wherein the first and the second conical abutment surface face in a same direction with respect to an axial direction. 11. A bearing assembly configured to rotatably support a first machine part in a second machine part, the bearing assembly comprising: a first rolling-element bearing; and a second rolling-element bearing, wherein the first rolling-element bearing and the second rolling-element bearing are installed in the bearing assembly with an axial preload or an axial clearance, wherein the second machine part includes a first conical abutment surface and the first rolling-element bearing includes a bearing ring having a second conical abutment surface facing the first conical abutment surface of the second machine part, wherein an intermediate ring is disposed between the first conical abutment surface and the second conical abutment surface in abutment with the first and second conical abutment surfaces, wherein the bearing ring comprises a first metal and the second machine part comprises a second metal, wherein the intermediate ring comprises a material having a higher coefficient of thermal expansion than a coefficient of thermal expansion of the first metal and higher than a coefficient of thermal expansion of the second metal, wherein the first conical abutment surface is formed on an abutment ring mounted to the second machine part, and wherein the abutment ring comprises metal, and wherein the bearing assembly further comprises a means for preventing rotation of the abutment ring relative to the bearing ring. 12. The bearing assembly according to claim 11 , wherein the intermediate ring is configured to maintain the axial preload or to maintain the axial clearance over a range of operating temperatures. 13. The assembly according to claim 11 , wherein the first machine part is a shaft and the second machine part is a housing. 14. A bearing assembly configured to rotatably support a first machine part in a second machine part, the bearing assembly comprising: a first rolling-element bearing; and a second rolling-element bearing, wherein the first rolling-element bearing and the second rolling-element bearing are installed in the bearing assembly with an axial preload or an axial clearance, wherein the second machine part includes a first conical abutment surface and the first rolling-element bearing includes a bearing ring having a second conical abutment surface facing the first conical abutment surface of the second machine part, wherein an intermediate ring is disposed between the first conical abutment surface and the second conical abutment surface in abutment with the first and second conical abutment surfaces, wherein the bearing ring comprises a first metal and the second machine part comprises a second metal, wherein the intermediate ring comprises a material having a higher coefficient of thermal expansion than a coefficient of thermal expansion of the first metal and higher than a coefficient of thermal expansion of the second metal, wherein the intermediate ring comprises a fluorinated rubber, wherein the first and second rolling-element bearings are tapered rolling-element bearings, wherein a cone angle (α 1 ) of the first conical abutment surface is from 15° to 30°, wherein a cone angle (α 2 ) of the second conical abutment surface is from 10° to 25°, and wherein the first rolling-element bearing and the second rolling-element bearing are installed in the bearing assembly with an axial preload.