Hydraulic plug

The invention claimed is: 1. A method of manufacturing a hydraulic plug comprising: providing a shell comprising a circumferential wall, a sealed end, an open end and an axially extending cavity within, the cavity being defined by an internal surface with an inner diameter which narrows towards the open end; inserting a head of an expander into the cavity, the expander further comprising a stem extending from the cavity for applying a tensile force (T) to the head, wherein a sleeve is provided on a stem side of the head extending into the cavity, an end of the sleeve adjacent the head having an inner diameter (ID 2 ) which is less than a maximum outer diameter (OD 1 ) of the head and wherein the sleeve is made of the same material as the shell; and a sleeve forming step in which the sleeve is expanded by forcing the head into the end of the sleeve through urging the sleeve and/or expander towards the other in an axial direction, causing the end of the sleeve to plastically deform and the sleeve to overlap a region of the head to present a combined outer diameter (OD 3 ) which is greater than a minimum inner diameter (ID 1 ) of the cavity where the cavity narrows towards the open end, thereby preventing withdrawal of the head from the cavity. 2. A method as claimed in claim 1 , wherein the sleeve is expanded into abutment with the internal surface of the cavity, causing the expander to become wedged by the sleeve within the cavity, ready for use. 3. A method as claimed in claim 1 , wherein the method comprises inserting the end of the sleeve into the cavity after the head of the expander has been inserted into the cavity. 4. A method as claimed in claim 3 , wherein during the sleeve forming step, the head of the expander is drawn towards the sleeve to expand the sleeve around the head. 5. A method as claimed in claim 3 , wherein during the sleeve forming step the end of the sleeve is moved towards the head to expand the sleeve around the head. 6. A method as claimed in claim 1 , wherein the sleeve is caused to overlap a region of the head having the maximum outer diameter (OD 1 ) and wherein the cavity extends axially a distance greater than the axial extent of the head, and the method includes pulling the head of the expander away from the sealed end of the shell towards the open end of the shell and into the end of the sleeve to expand the sleeve locally by creating the overlap. 7. A method as claimed in claim 1 , wherein the shell has a cylindrical outer form and is for installation in a body having a hydraulic passage of constant diameter. 8. A hydraulic plug comprising: a shell comprising a circumferential wall, a sealed end, an open end and an axially extending cavity opening to the open end, the cavity being defined by an internal surface with an inner diameter which narrows towards the open end; an expander having a head retained within the cavity of the shell and a stem joined to the head and extending from the cavity for applying a tensile force (T) to the head; and a sleeve provided between the head and the internal surface of the shell, wherein the sleeve is made of the same material as the shell, and wherein the sleeve has an end which has been plastically deformed over the head, the sleeve then overlapping a region of the head to present a combined outer diameter (OD 3 ) which is greater than a minimum inner diameter ID 1 of the cavity where the cavity narrows towards the open end, thereby preventing withdrawal of the head from the cavity. 9. A hydraulic plug as claimed in claim 8 , wherein the sleeve overlaps a region of the head having a maximum outer diameter (OD 1 ). 10. A hydraulic plug as claimed in claim 8 , wherein the sleeve comprises a shoulder which extends radially inward around the stem adjacent the join of the stem to the head, and wherein the sleeve comprises an elongate region extending from the shoulder along the stem. 11. A hydraulic plug as claimed in claim 8 , wherein the internal surface of the shell is frusto-conical. 12. A hydraulic plug as claimed in claim 8 , wherein the expander comprises a ball or bullet shaped member. 13. A hydraulic plug as claimed in claim 8 , wherein the shell includes one or more circumferentially extending grooves in the circumferential wall. 14. A hydraulic plug as claimed in claim 8 , wherein the expander is made of a harder material than the sleeve.