Ring rolling process and apparatus for ring rolling

The invention claimed is: 1. A ring rolling process comprising: providing a ring shaped workpiece, the ring shaped workpiece having a principal axis, an inner radial surface, an outer radial surface, a first axial surface and a second axial surface; subjecting the workpiece to radial pressure between a forming roll acting on the outer radial surface and a mandrel roll acting on the inner radial surface, at a radial roll bite region, wherein: a first axial roll and a second axial roll are provided at the first axial surface and the second axial surface respectively, to subject the workpiece to axial pressure, the first and second axial rolls being provided at an angular position, measured around the workpiece and with respect to the principal axis, within ±10° of said radial roll bite region; and, in order to control the cross sectional shape of the workpiece at least one of the following conditions (i) and (ii) applies: (i) the mandrel roll has a projecting portion for contact with the workpiece, the projecting portion having an axial extent which is smaller than the axial height of the workpiece, the mandrel roll being axially moveable relative to the workpiece during the ring rolling process so that the projecting portion is applied to different axial locations of the workpiece, in order to control the shape applied to the workpiece; and (ii) the forming roll has a projecting portion for contact with the workpiece, the projecting portion having an axial extent which is smaller than the axial height of the workpiece, the forming roll being axially moveable relative to the workpiece during the ring rolling process so that the projecting portion is applied to different axial locations of the workpiece, in order to control the shape applied to the workpiece; and wherein the first and second axial rolls are independently moved to adapt to the changing cross section of the workpiece during forming. 2. The ring rolling process according to claim 1 wherein an axial roll bite region and the radial roll bite region overlap in terms of angular position around the workpiece. 3. The ring rolling process according to claim 1 wherein circumferential constraint rolls are provided to act on the outer radial surface or inner radial surface of the workpiece. 4. The ring rolling process according to claim 3 wherein the circumferential constraint rolls act to control the compressive or tensional hoop stress in the workpiece. 5. The ring rolling process according to claim 3 wherein there are provided more than two circumferential constraint rolls. 6. The ring rolling process according to claim 5 wherein the more than two circumferential constraint rolls are angularly distributed substantially regularly around the workpiece. 7. The ring rolling process according to claim 3 wherein the circumferential constraint rolls have the same shape as the mandrel and/or forming rolls and are similarly axially moveable relative to the workpiece. 8. A ring rolling apparatus for ring rolling a ring shaped workpiece, the ring shaped workpiece having a principal axis, an inner radial surface, an outer radial surface, a first axial surface and a second axial surface, the ring rolling apparatus comprising: a forming roll and a mandrel roll, for subjecting the workpiece to radial pressure between a forming roll acting on the outer radial surface and a mandrel roll acting on the inner radial surface, at a radial roll bite region, and; a first axial roll and a second axial roll, for subjecting the workpiece to axial pressure between the first axial surface and the second axial surface respectively, the first and second axial rolls being provided at an angular position, measured around the workpiece and with respect to the principal axis of the ring shaped workpiece, within ±10° of said radial roll bite region, wherein, in order to control the cross sectional shape of the workpiece at least one of the following conditions (i) and (ii) applies: (i) the mandrel roll has a projecting portion for contact with the workpiece, the projecting portion having an axial extent which is smaller than the axial height of the workpiece, the mandrel roll being axially moveable relative to the workpiece, so that the projecting portion is capable of being applied to different axial locations of the workpiece, in order to control the shape applied to the workpiece; and (ii) the forming roll has a projecting portion for contact with the workpiece, the projecting portion having an axial extent which is smaller than the axial height of the workpiece, the forming roll being axially moveable relative to the workpiece, so that the projecting portion is capable of being applied to different axial locations of the workpiece, in order to control the shape applied to the workpiece; and wherein the first and second axial rolls are independently moveable to adapt to the changing cross section of the workpiece during forming. 9. The ring rolling apparatus according to claim 8 wherein an axial roll bite region and the radial roll bite region overlap in terms of angular position around the workpiece. 10. The ring rolling apparatus according to claim 8 wherein circumferential constraint roll are provided to act on the outer radial surface or inner radial surface of the workpiece. 11. The ring rolling apparatus according to claim 10 wherein the circumferential constraint rolls act to control the compressive or tensional hoop stress in the workpiece. 12. The ring rolling apparatus according to claim 10 wherein there are provided more than two circumferential constraint rolls. 13. The ring rolling apparatus according to claim 12 wherein the more than two circumferential constraint rolls are angularly distributed substantially regularly around the workpiece. 14. The ring rolling apparatus according to claim 10 wherein the circumferential constraint rolls have the same shape as the mandrel and/or forming rolls and are similarly axially moveable relative to the workpiece.