Gimbal expansion joint

The invention claimed is: 1. A gimbal expansion joint for use in joining ducting, the gimbal expansion joint having: a first clevis adapted to be secured to one end of a first piece of ducting, a second clevis adapted to be secured to an end of a second piece of ducting, and a gimbal arrangement to which the first and second clevises are pivotably connected to form a universal joint between the ends of the pieces of ducting; and a flexible duct extending between the first and second clevises to form a passage for fluid communication between the ends of the first and second pieces of ducting; wherein the flexible duct has a respective flange at each end, each flange providing an axially-directed face across which a clamping load is applied to affix the flange to a corresponding axially-directed face of the respective clevis, and the axially-directed face of each of the first and second clevises is an inward-facing surface that faces, in an axial direction, toward the gimbal arrangement, and the clamping load presses the respective flange against the respective inward-facing surface. 2. The gimbal expansion joint according to claim 1 wherein the flexible duct is a bellows. 3. The gimbal expansion joint according to claim 1 wherein the axially-directed faces are planar. 4. The gimbal expansion joint according to claim 1 wherein the axially-directed faces are annular. 5. The gimbal expansion joint according to claim 1 further having a respective load spreading member(s) at each end of the flexible duct, the load spreading member(s) distributing the clamping load around the respective flange. 6. The gimbal expansion joint according to claim 1 wherein the clamping loads are applied by mechanical fasteners. 7. The gimbal expansion joint according to claim 6 wherein each clamping load is applied by a respective circumferential row of mechanical fasteners. 8. The gimbal expansion joint according to claim 1 wherein the flexible duct is formed of a material different to that of the first and second clevis. 9. The gimbal expansion joint according to claim 1 wherein each of the first and second clevises is formed of the same material as that of the ducting to which it is secured. 10. The gimbal expansion joint according to claim 1 wherein the clevises are secured to the respective pieces of ducting by welding or brazing. 11. The gimbal expansion joint according to claim 1 wherein the flexible duct is formed of a superalloy, and the first and second clevises are formed of a titanium alloy. 12. The gimbal expansion joint according to claim 1 wherein the flanges are integrally formed with the flexible duct. 13. A ducting assembly having first and second pieces of ducting joined by the gimbal expansion joint according to claim 1 . 14. A gas turbine engine air bleed system having the ducting assembly of claim 13 . 15. A gas turbine engine having the air bleed system of claim 14 . 16. A gimbal expansion joint for use in joining ducting, the gimbal expansion joint having: a first clevis adapted to be secured to one end of a first piece of ducting, a second clevis adapted to be secured to an end of a second piece of ducting, and a gimbal arrangement to which the first and second clevises are pivotably connected to form a universal joint between the ends of the pieces of ducting; and a flexible duct extending between the first and second clevises to form a passage for fluid communication between the ends of the first and second pieces of ducting; wherein the flexible duct has a respective flange at each end, each flange providing an axially-directed face across which a clamping load is applied to affix the flange to a corresponding axially-directed face of the respective clevis, and wherein each clamping load is applied by a respective circumferential row of mechanical fasteners, each mechanical fastener passing through one of the respective flanges of the flexible duct. 17. A gimbal expansion joint for use in joining ducting, the gimbal expansion joint having: a first clevis adapted to be secured to one end of a first piece of ducting, a second clevis adapted to be secured to an end of a second piece of ducting, and a gimbal arrangement to which the first and second clevises are pivotably connected to form a universal joint between the ends of the pieces of ducting; and a flexible duct extending between the first and second clevises to form a passage for fluid communication between the ends of the first and second pieces of ducting; wherein the flexible duct has a respective flange at each end, each flange providing an axially-directed face across which a clamping load is applied to affix the flange to a corresponding axially-directed face of the respective clevis, the clamping load being applied by a load spreading member engaged by interference fit with the respective clevis.