Modular hydraulic chuck

1 . A hydraulic chuck comprising: an expansion sleeve comprising a bore; a plurality of pistons axially mounted in at least one piston chamber of the expansion sleeve; and an actuator ring rotatably mounted relative to the expansion sleeve, the actuator ring configured to actuate the plurality of pistons in the at least one piston chamber to hydraulically expand the expansion sleeve to provide a varying clamping force within the bore. 2 . The hydraulic chuck of claim 1 wherein the expansion sleeve comprises only one pressure chamber containing hydraulic fluid, the only one pressure chamber connected to the at least one piston chamber and extending axially adjacent the bore. 3 . The hydraulic chuck of claim 1 wherein the expansion sleeve comprises a plurality of pressure chambers containing hydraulic fluid, the plurality of pressure chambers connected to different piston chambers and extending axially adjacent the bore. 4 . The hydraulic chuck of claim 3 wherein the plurality of pressure chambers comprise different pressurizations. 5 . The hydraulic chuck of claim 1 wherein the plurality of pistons comprise different sizes. 6 . The hydraulic chuck of claim 1 wherein the actuator ring comprises a cam profile which is configured to apply a non-constant level of hydraulic expansion to the expansion sleeve as the actuator ring is rotated relative to the expansion sleeve. 7 . The hydraulic chuck of claim 1 further comprising a tool support member attached with the expansion sleeve. 8 . The hydraulic chuck of claim 7 wherein the actuator ring is disposed between the tool support member and the expansion sleeve. 9 . The hydraulic chuck of claim 7 wherein the expansion sleeve is disposed between the tool support member and the actuator ring. 10 . The hydraulic chuck of claim 7 wherein the tool support member is attached directly to the expansion sleeve with a mechanical fit. 11 . The hydraulic chuck of claim 7 wherein the tool support member is attached directly to the expansion sleeve with an interference fit. 12 . The hydraulic chuck of claim 1 wherein the actuator ring is configured to simultaneously actuate the plurality of pistons in the at least one piston chamber to hydraulically expand the expansion sleeve to provide a varying clamping force within the bore. 13 . The hydraulic chuck of claim 1 wherein the actuator ring is configured to actuate at least some of the plurality of pistons in the at least one piston chamber at different times to hydraulically expand the expansion sleeve to provide a varying clamping force within the bore. 14 . A method of hydraulically actuating a hydraulic chuck comprising: rotating an actuator ring of the hydraulic chuck to actuate a plurality of pistons axially mounted within at least one piston chamber of an expansion sleeve of the hydraulic chuck; and expanding the expansion sleeve to provide a varying clamping force within a bore of the hydraulic chuck. 15 . The method of claim 14 further comprising simultaneously actuating the plurality of pistons as the actuator ring is rotated. 16 . The method of claim 14 further comprising actuating the plurality of pistons at different times as the actuating ring is rotated. 17 . The method of claim 14 further comprising the rotation of the actuator ring causing varying pressurizations. 18 . The method of claim 14 further comprising actuating the plurality of pistons varying amounts. 19 . The method of claim 14 further comprising rotating the actuator ring between a tool support member of the hydraulic chuck and the expansion sleeve. 20 . The method of claim 14 further comprising rotating the actuator ring at a first end of the expansion sleeve, wherein a tool support member is attached to a second end of the expansion sleeve.